[{"quality_controlled":"1","language":[{"iso":"eng"}],"scopus_import":"1","external_id":{"arxiv":["1511.01995"],"isi":["000371620000001"]},"volume":57,"abstract":[{"text":"We review recent results concerning the mathematical properties of the Bardeen-Cooper-Schrieffer (BCS) functional of superconductivity, which were obtained in a series of papers, partly in collaboration with R. Frank, E. Hamza, S. Naboko, and J. P. Solovej. Our discussion includes, in particular, an investigation of the critical temperature for a general class of interaction potentials, as well as a study of its dependence on external fields. We shall explain how the Ginzburg-Landau model can be derived from the BCS theory in a suitable parameter regime.","lang":"eng"}],"department":[{"_id":"RoSe"}],"_id":"1486","isi":1,"publication":"Journal of Mathematical Physics","publication_status":"published","issue":"2","article_processing_charge":"No","main_file_link":[{"url":"http://arxiv.org/abs/1511.01995","open_access":"1"}],"type":"journal_article","intvolume":"        57","citation":{"ista":"Hainzl C, Seiringer R. 2016. The Bardeen–Cooper–Schrieffer functional of superconductivity and its mathematical properties. Journal of Mathematical Physics. 57(2), 021101.","apa":"Hainzl, C., &#38; Seiringer, R. (2016). The Bardeen–Cooper–Schrieffer functional of superconductivity and its mathematical properties. <i>Journal of Mathematical Physics</i>. American Institute of Physics. <a href=\"https://doi.org/10.1063/1.4941723\">https://doi.org/10.1063/1.4941723</a>","chicago":"Hainzl, Christian, and Robert Seiringer. “The Bardeen–Cooper–Schrieffer Functional of Superconductivity and Its Mathematical Properties.” <i>Journal of Mathematical Physics</i>. American Institute of Physics, 2016. <a href=\"https://doi.org/10.1063/1.4941723\">https://doi.org/10.1063/1.4941723</a>.","short":"C. Hainzl, R. Seiringer, Journal of Mathematical Physics 57 (2016).","mla":"Hainzl, Christian, and Robert Seiringer. “The Bardeen–Cooper–Schrieffer Functional of Superconductivity and Its Mathematical Properties.” <i>Journal of Mathematical Physics</i>, vol. 57, no. 2, 021101, American Institute of Physics, 2016, doi:<a href=\"https://doi.org/10.1063/1.4941723\">10.1063/1.4941723</a>.","ama":"Hainzl C, Seiringer R. The Bardeen–Cooper–Schrieffer functional of superconductivity and its mathematical properties. <i>Journal of Mathematical Physics</i>. 2016;57(2). doi:<a href=\"https://doi.org/10.1063/1.4941723\">10.1063/1.4941723</a>","ieee":"C. Hainzl and R. Seiringer, “The Bardeen–Cooper–Schrieffer functional of superconductivity and its mathematical properties,” <i>Journal of Mathematical Physics</i>, vol. 57, no. 2. American Institute of Physics, 2016."},"date_published":"2016-02-24T00:00:00Z","publist_id":"5701","article_number":"021101","day":"24","arxiv":1,"status":"public","date_updated":"2025-09-18T11:31:30Z","user_id":"317138e5-6ab7-11ef-aa6d-ffef3953e345","date_created":"2018-12-11T11:52:18Z","year":"2016","month":"02","publisher":"American Institute of Physics","oa":1,"oa_version":"Preprint","author":[{"full_name":"Hainzl, Christian","first_name":"Christian","last_name":"Hainzl"},{"first_name":"Robert","full_name":"Seiringer, Robert","last_name":"Seiringer","orcid":"0000-0002-6781-0521","id":"4AFD0470-F248-11E8-B48F-1D18A9856A87"}],"title":"The Bardeen–Cooper–Schrieffer functional of superconductivity and its mathematical properties","doi":"10.1063/1.4941723"},{"type":"journal_article","intvolume":"        14","acknowledgement":"We thank Eric Maris, Demian Battaglia, and Rodrigo Quian Quiroga for useful discussions. We are grateful to Fabrizio Manzino and Marco Gigante for construction of the behavioral apparatus, Igor Perkon for developing custom whisker tracking software and to Francesca Pulecchi for animal care and histological processing.","citation":{"apa":"Grion, N., Akrami, A., Zuo, Y., Stella, F., &#38; Diamond, M. (2016). Coherence between rat sensorimotor system and hippocampus is enhanced during tactile discrimination. <i>PLoS Biology</i>. Public Library of Science. <a href=\"https://doi.org/10.1371/journal.pbio.1002384\">https://doi.org/10.1371/journal.pbio.1002384</a>","ista":"Grion N, Akrami A, Zuo Y, Stella F, Diamond M. 2016. Coherence between rat sensorimotor system and hippocampus is enhanced during tactile discrimination. PLoS Biology. 14(2), e1002384.","ama":"Grion N, Akrami A, Zuo Y, Stella F, Diamond M. Coherence between rat sensorimotor system and hippocampus is enhanced during tactile discrimination. <i>PLoS Biology</i>. 2016;14(2). doi:<a href=\"https://doi.org/10.1371/journal.pbio.1002384\">10.1371/journal.pbio.1002384</a>","ieee":"N. Grion, A. Akrami, Y. Zuo, F. Stella, and M. Diamond, “Coherence between rat sensorimotor system and hippocampus is enhanced during tactile discrimination,” <i>PLoS Biology</i>, vol. 14, no. 2. Public Library of Science, 2016.","chicago":"Grion, Natalia, Athena Akrami, Yangfang Zuo, Federico Stella, and Mathew Diamond. “Coherence between Rat Sensorimotor System and Hippocampus Is Enhanced during Tactile Discrimination.” <i>PLoS Biology</i>. Public Library of Science, 2016. <a href=\"https://doi.org/10.1371/journal.pbio.1002384\">https://doi.org/10.1371/journal.pbio.1002384</a>.","short":"N. Grion, A. Akrami, Y. Zuo, F. Stella, M. Diamond, PLoS Biology 14 (2016).","mla":"Grion, Natalia, et al. “Coherence between Rat Sensorimotor System and Hippocampus Is Enhanced during Tactile Discrimination.” <i>PLoS Biology</i>, vol. 14, no. 2, e1002384, Public Library of Science, 2016, doi:<a href=\"https://doi.org/10.1371/journal.pbio.1002384\">10.1371/journal.pbio.1002384</a>."},"publist_id":"5700","date_published":"2016-02-18T00:00:00Z","article_number":"e1002384","day":"18","status":"public","quality_controlled":"1","language":[{"iso":"eng"}],"external_id":{"isi":["000371883600015"]},"scopus_import":"1","file_date_updated":"2020-07-14T12:44:57Z","volume":14,"abstract":[{"lang":"eng","text":"Rhythms with time scales of multiple cycles per second permeate the mammalian brain, yet neuroscientists are not certain of their functional roles. One leading idea is that coherent oscillation between two brain regions facilitates the exchange of information between them. In rats, the hippocampus and the vibrissal sensorimotor system both are characterized by rhythmic oscillation in the theta range, 5–12 Hz. Previous work has been divided as to whether the two rhythms are independent or coherent. To resolve this question, we acquired three measures from rats—whisker motion, hippocampal local field potential (LFP), and barrel cortex unit firing—during a whisker-mediated texture discrimination task and during control conditions (not engaged in a whisker-mediated memory task). Compared to control conditions, the theta band of hippocampal LFP showed a marked increase in power as the rats approached and then palpated the texture. Phase synchronization between whisking and hippocampal LFP increased by almost 50% during approach and texture palpation. In addition, a greater proportion of barrel cortex neurons showed firing that was phase-locked to hippocampal theta while rats were engaged in the discrimination task. Consistent with a behavioral consequence of phase synchronization, the rats identified the texture more rapidly and with lower error likelihood on trials in which there was an increase in theta-whisking coherence at the moment of texture palpation. These results suggest that coherence between the whisking rhythm, barrel cortex firing, and hippocampal LFP is augmented selectively during epochs in which the rat collects sensory information and that such coherence enhances the efficiency of integration of stimulus information into memory and decision-making centers."}],"ddc":["570"],"department":[{"_id":"JoCs"}],"_id":"1487","isi":1,"publication_status":"published","publication":"PLoS Biology","issue":"2","article_processing_charge":"No","publisher":"Public Library of Science","oa":1,"pubrep_id":"518","oa_version":"Published Version","author":[{"last_name":"Grion","first_name":"Natalia","full_name":"Grion, Natalia"},{"first_name":"Athena","full_name":"Akrami, Athena","last_name":"Akrami"},{"last_name":"Zuo","full_name":"Zuo, Yangfang","first_name":"Yangfang"},{"orcid":"0000-0001-9439-3148","id":"39AF1E74-F248-11E8-B48F-1D18A9856A87","last_name":"Stella","full_name":"Stella, Federico","first_name":"Federico"},{"last_name":"Diamond","first_name":"Mathew","full_name":"Diamond, Mathew"}],"title":"Coherence between rat sensorimotor system and hippocampus is enhanced during tactile discrimination","doi":"10.1371/journal.pbio.1002384","tmp":{"name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)","image":"/images/cc_by.png","legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode"},"date_updated":"2025-09-18T11:30:07Z","user_id":"317138e5-6ab7-11ef-aa6d-ffef3953e345","date_created":"2018-12-11T11:52:18Z","year":"2016","file":[{"file_name":"IST-2016-518-v1+1_journal.pbio.1002384.PDF","checksum":"3a5ce0d4e4e36bd6ceb4be761f85644a","date_created":"2018-12-12T10:15:11Z","relation":"main_file","file_id":"5129","date_updated":"2020-07-14T12:44:57Z","content_type":"application/pdf","file_size":2879899,"access_level":"open_access","creator":"system"}],"has_accepted_license":"1","month":"02"},{"scopus_import":"1","external_id":{"isi":["000371883600013"]},"language":[{"iso":"eng"}],"quality_controlled":"1","department":[{"_id":"SiHi"}],"ddc":["570"],"abstract":[{"lang":"eng","text":"Branching morphogenesis of the epithelial ureteric bud forms the renal collecting duct system and is critical for normal nephron number, while low nephron number is implicated in hypertension and renal disease. Ureteric bud growth and branching requires GDNF signaling from the surrounding mesenchyme to cells at the ureteric bud tips, via the Ret receptor tyrosine kinase and coreceptor Gfrα1; Ret signaling up-regulates transcription factors Etv4 and Etv5, which are also critical for branching. Despite extensive knowledge of the genetic control of these events, it is not understood, at the cellular level, how renal branching morphogenesis is achieved or how Ret signaling influences epithelial cell behaviors to promote this process. Analysis of chimeric embryos previously suggested a role for Ret signaling in promoting cell rearrangements in the nephric duct, but this method was unsuited to study individual cell behaviors during ureteric bud branching. Here, we use Mosaic Analysis with Double Markers (MADM), combined with organ culture and time-lapse imaging, to trace the movements and divisions of individual ureteric bud tip cells. We first examine wild-type clones and then Ret or Etv4 mutant/wild-type clones in which the mutant and wild-type sister cells are differentially and heritably marked by green and red fluorescent proteins. We find that, in normal kidneys, most individual tip cells behave as self-renewing progenitors, some of whose progeny remain at the tips while others populate the growing UB trunks. In Ret or Etv4 MADM clones, the wild-type cells generated at a UB tip are much more likely to remain at, or move to, the new tips during branching and elongation, while their Ret−/− or Etv4−/− sister cells tend to lag behind and contribute only to the trunks. By tracking successive mitoses in a cell lineage, we find that Ret signaling has little effect on proliferation, in contrast to its effects on cell movement. Our results show that Ret/Etv4 signaling promotes directed cell movements in the ureteric bud tips, and suggest a model in which these cell movements mediate branching morphogenesis."}],"volume":14,"file_date_updated":"2020-07-14T12:44:57Z","isi":1,"_id":"1488","related_material":{"record":[{"id":"9703","status":"deleted","relation":"research_data"}]},"article_processing_charge":"No","issue":"2","publication_status":"published","publication":"PLoS Biology","type":"journal_article","intvolume":"        14","acknowledgement":"We thank Silvia Arber, Thomas Jessell, Kenneth M. Murphy, Carlton Bates, Hideki Enomoto, Liqun Luo and Andrew McMahon for mouse strains; Thomas Jessell for antibodies; and Laura Martinez Prat for experimental assistance.","citation":{"ama":"Riccio P, Cebrián C, Zong H, Hippenmeyer S, Costantini F. Ret and Etv4 promote directed movements of progenitor cells during renal branching morphogenesis. <i>PLoS Biology</i>. 2016;14(2). doi:<a href=\"https://doi.org/10.1371/journal.pbio.1002382\">10.1371/journal.pbio.1002382</a>","ieee":"P. Riccio, C. Cebrián, H. Zong, S. Hippenmeyer, and F. Costantini, “Ret and Etv4 promote directed movements of progenitor cells during renal branching morphogenesis,” <i>PLoS Biology</i>, vol. 14, no. 2. Public Library of Science, 2016.","chicago":"Riccio, Paul, Cristina Cebrián, Hui Zong, Simon Hippenmeyer, and Frank Costantini. “Ret and Etv4 Promote Directed Movements of Progenitor Cells during Renal Branching Morphogenesis.” <i>PLoS Biology</i>. Public Library of Science, 2016. <a href=\"https://doi.org/10.1371/journal.pbio.1002382\">https://doi.org/10.1371/journal.pbio.1002382</a>.","mla":"Riccio, Paul, et al. “Ret and Etv4 Promote Directed Movements of Progenitor Cells during Renal Branching Morphogenesis.” <i>PLoS Biology</i>, vol. 14, no. 2, e1002382, Public Library of Science, 2016, doi:<a href=\"https://doi.org/10.1371/journal.pbio.1002382\">10.1371/journal.pbio.1002382</a>.","short":"P. Riccio, C. Cebrián, H. Zong, S. Hippenmeyer, F. Costantini, PLoS Biology 14 (2016).","apa":"Riccio, P., Cebrián, C., Zong, H., Hippenmeyer, S., &#38; Costantini, F. (2016). Ret and Etv4 promote directed movements of progenitor cells during renal branching morphogenesis. <i>PLoS Biology</i>. Public Library of Science. <a href=\"https://doi.org/10.1371/journal.pbio.1002382\">https://doi.org/10.1371/journal.pbio.1002382</a>","ista":"Riccio P, Cebrián C, Zong H, Hippenmeyer S, Costantini F. 2016. Ret and Etv4 promote directed movements of progenitor cells during renal branching morphogenesis. PLoS Biology. 14(2), e1002382."},"status":"public","day":"19","article_number":"e1002382","publist_id":"5699","date_published":"2016-02-19T00:00:00Z","tmp":{"name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)","image":"/images/cc_by.png","legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode"},"date_created":"2018-12-11T11:52:19Z","user_id":"317138e5-6ab7-11ef-aa6d-ffef3953e345","date_updated":"2025-09-18T11:28:32Z","has_accepted_license":"1","file":[{"checksum":"7f8fa1b3a29f94c0a14dd4465278cdbc","file_name":"IST-2016-517-v1+1_journal.pbio.1002382_1_.PDF","date_updated":"2020-07-14T12:44:57Z","relation":"main_file","file_id":"5027","date_created":"2018-12-12T10:13:42Z","access_level":"open_access","file_size":5904773,"content_type":"application/pdf","creator":"system"}],"year":"2016","month":"02","publisher":"Public Library of Science","oa":1,"pubrep_id":"517","title":"Ret and Etv4 promote directed movements of progenitor cells during renal branching morphogenesis","author":[{"last_name":"Riccio","first_name":"Paul","full_name":"Riccio, Paul"},{"first_name":"Cristina","full_name":"Cebrián, Cristina","last_name":"Cebrián"},{"last_name":"Zong","first_name":"Hui","full_name":"Zong, Hui"},{"full_name":"Hippenmeyer, Simon","first_name":"Simon","id":"37B36620-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0003-2279-1061","last_name":"Hippenmeyer"},{"full_name":"Costantini, Frank","first_name":"Frank","last_name":"Costantini"}],"oa_version":"Published Version","doi":"10.1371/journal.pbio.1002382"},{"publisher":"Springer","oa":1,"pubrep_id":"516","oa_version":"Published Version","author":[{"first_name":"Oskari H","full_name":"Ajanki, Oskari H","last_name":"Ajanki","id":"36F2FB7E-F248-11E8-B48F-1D18A9856A87"},{"id":"4DBD5372-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0001-5366-9603","last_name":"Erdös","full_name":"Erdös, László","first_name":"László"},{"last_name":"Krüger","orcid":"0000-0002-4821-3297","id":"3020C786-F248-11E8-B48F-1D18A9856A87","first_name":"Torben H","full_name":"Krüger, Torben H"}],"title":"Local spectral statistics of Gaussian matrices with correlated entries","page":"280 - 302","doi":"10.1007/s10955-016-1479-y","tmp":{"name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)","image":"/images/cc_by.png","legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode"},"corr_author":"1","date_updated":"2025-09-18T11:17:50Z","user_id":"317138e5-6ab7-11ef-aa6d-ffef3953e345","date_created":"2018-12-11T11:52:19Z","year":"2016","file":[{"content_type":"application/pdf","file_size":660602,"access_level":"open_access","creator":"system","file_name":"IST-2016-516-v1+1_s10955-016-1479-y.pdf","checksum":"7139598dcb1cafbe6866bd2bfd732b33","date_created":"2018-12-12T10:11:16Z","relation":"main_file","file_id":"4869","date_updated":"2020-07-14T12:44:57Z"}],"has_accepted_license":"1","month":"04","ec_funded":1,"type":"journal_article","intvolume":"       163","citation":{"apa":"Ajanki, O. H., Erdös, L., &#38; Krüger, T. H. (2016). Local spectral statistics of Gaussian matrices with correlated entries. <i>Journal of Statistical Physics</i>. Springer. <a href=\"https://doi.org/10.1007/s10955-016-1479-y\">https://doi.org/10.1007/s10955-016-1479-y</a>","ista":"Ajanki OH, Erdös L, Krüger TH. 2016. Local spectral statistics of Gaussian matrices with correlated entries. Journal of Statistical Physics. 163(2), 280–302.","ama":"Ajanki OH, Erdös L, Krüger TH. Local spectral statistics of Gaussian matrices with correlated entries. <i>Journal of Statistical Physics</i>. 2016;163(2):280-302. doi:<a href=\"https://doi.org/10.1007/s10955-016-1479-y\">10.1007/s10955-016-1479-y</a>","ieee":"O. H. Ajanki, L. Erdös, and T. H. Krüger, “Local spectral statistics of Gaussian matrices with correlated entries,” <i>Journal of Statistical Physics</i>, vol. 163, no. 2. Springer, pp. 280–302, 2016.","chicago":"Ajanki, Oskari H, László Erdös, and Torben H Krüger. “Local Spectral Statistics of Gaussian Matrices with Correlated Entries.” <i>Journal of Statistical Physics</i>. Springer, 2016. <a href=\"https://doi.org/10.1007/s10955-016-1479-y\">https://doi.org/10.1007/s10955-016-1479-y</a>.","mla":"Ajanki, Oskari H., et al. “Local Spectral Statistics of Gaussian Matrices with Correlated Entries.” <i>Journal of Statistical Physics</i>, vol. 163, no. 2, Springer, 2016, pp. 280–302, doi:<a href=\"https://doi.org/10.1007/s10955-016-1479-y\">10.1007/s10955-016-1479-y</a>.","short":"O.H. Ajanki, L. Erdös, T.H. Krüger, Journal of Statistical Physics 163 (2016) 280–302."},"acknowledgement":"Open access funding provided by Institute of Science and Technology (IST Austria). Oskari H. Ajanki was Partially supported by ERC Advanced Grant RANMAT No. 338804, and SFB-TR 12 Grant of the German Research Council. László Erdős was Partially supported by ERC Advanced Grant RANMAT No. 338804. Torben Krüger was Partially supported by ERC Advanced Grant RANMAT No. 338804, and SFB-TR 12 Grant of the German Research Council.","date_published":"2016-04-01T00:00:00Z","publist_id":"5698","day":"01","status":"public","quality_controlled":"1","language":[{"iso":"eng"}],"external_id":{"isi":["000373132700003"]},"scopus_import":"1","file_date_updated":"2020-07-14T12:44:57Z","volume":163,"abstract":[{"text":"We prove optimal local law, bulk universality and non-trivial decay for the off-diagonal elements of the resolvent for a class of translation invariant Gaussian random matrix ensembles with correlated entries. ","lang":"eng"}],"ddc":["510"],"department":[{"_id":"LaEr"}],"_id":"1489","isi":1,"project":[{"name":"Random matrices, universality and disordered quantum systems","grant_number":"338804","_id":"258DCDE6-B435-11E9-9278-68D0E5697425","call_identifier":"FP7"},{"name":"IST Austria Open Access Fund","_id":"B67AFEDC-15C9-11EA-A837-991A96BB2854"}],"publication_status":"published","publication":"Journal of Statistical Physics","issue":"2","article_processing_charge":"Yes (via OA deal)"},{"scopus_import":"1","external_id":{"isi":["000370970200016"]},"quality_controlled":"1","language":[{"iso":"eng"}],"ddc":["570"],"department":[{"_id":"MiSi"}],"volume":14,"file_date_updated":"2020-07-14T12:44:58Z","abstract":[{"lang":"eng","text":"To induce adaptive immunity, dendritic cells (DCs) migrate through afferent lymphatic vessels (LVs) to draining lymph nodes (dLNs). This process occurs in several consecutive steps. Upon entry into lymphatic capillaries, DCs first actively crawl into downstream collecting vessels. From there, they are next passively and rapidly transported to the dLN by lymph flow. Here, we describe a role for the chemokine CCL21 in intralymphatic DC crawling. Performing time-lapse imaging in murine skin, we found that blockade of CCL21-but not the absence of lymph flow-completely abolished DC migration from capillaries toward collecting vessels and reduced the ability of intralymphatic DCs to emigrate from skin. Moreover, we found that in vitro low laminar flow established a CCL21 gradient along lymphatic endothelial monolayers, thereby inducing downstream-directed DC migration. These findings reveal a role for intralymphatic CCL21 in promoting DC trafficking to dLNs, through the formation of a flow-induced gradient."}],"isi":1,"_id":"1490","issue":"7","article_processing_charge":"No","publication":"Cell Reports","publication_status":"published","type":"journal_article","intvolume":"        14","citation":{"apa":"Russo, E., Teijeira, A., Vaahtomeri, K., Willrodt, A., Bloch, J., Nitschké, M., … Halin, C. (2016). Intralymphatic CCL21 promotes tissue egress of dendritic cells through afferent lymphatic vessels. <i>Cell Reports</i>. Cell Press. <a href=\"https://doi.org/10.1016/j.celrep.2016.01.048\">https://doi.org/10.1016/j.celrep.2016.01.048</a>","ista":"Russo E, Teijeira A, Vaahtomeri K, Willrodt A, Bloch J, Nitschké M, Santambrogio L, Kerjaschki D, Sixt MK, Halin C. 2016. Intralymphatic CCL21 promotes tissue egress of dendritic cells through afferent lymphatic vessels. Cell Reports. 14(7), 1723–1734.","ieee":"E. Russo <i>et al.</i>, “Intralymphatic CCL21 promotes tissue egress of dendritic cells through afferent lymphatic vessels,” <i>Cell Reports</i>, vol. 14, no. 7. Cell Press, pp. 1723–1734, 2016.","ama":"Russo E, Teijeira A, Vaahtomeri K, et al. Intralymphatic CCL21 promotes tissue egress of dendritic cells through afferent lymphatic vessels. <i>Cell Reports</i>. 2016;14(7):1723-1734. doi:<a href=\"https://doi.org/10.1016/j.celrep.2016.01.048\">10.1016/j.celrep.2016.01.048</a>","mla":"Russo, Erica, et al. “Intralymphatic CCL21 Promotes Tissue Egress of Dendritic Cells through Afferent Lymphatic Vessels.” <i>Cell Reports</i>, vol. 14, no. 7, Cell Press, 2016, pp. 1723–34, doi:<a href=\"https://doi.org/10.1016/j.celrep.2016.01.048\">10.1016/j.celrep.2016.01.048</a>.","short":"E. Russo, A. Teijeira, K. Vaahtomeri, A. Willrodt, J. Bloch, M. Nitschké, L. Santambrogio, D. Kerjaschki, M.K. Sixt, C. Halin, Cell Reports 14 (2016) 1723–1734.","chicago":"Russo, Erica, Alvaro Teijeira, Kari Vaahtomeri, Ann Willrodt, Joël Bloch, Maximilian Nitschké, Laura Santambrogio, Dontscho Kerjaschki, Michael K Sixt, and Cornelia Halin. “Intralymphatic CCL21 Promotes Tissue Egress of Dendritic Cells through Afferent Lymphatic Vessels.” <i>Cell Reports</i>. Cell Press, 2016. <a href=\"https://doi.org/10.1016/j.celrep.2016.01.048\">https://doi.org/10.1016/j.celrep.2016.01.048</a>."},"status":"public","date_published":"2016-02-23T00:00:00Z","publist_id":"5697","day":"23","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by-nc-nd/4.0/legalcode","name":"Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0)","short":"CC BY-NC-ND (4.0)","image":"/images/cc_by_nc_nd.png"},"user_id":"317138e5-6ab7-11ef-aa6d-ffef3953e345","date_created":"2018-12-11T11:52:19Z","date_updated":"2025-09-18T11:16:44Z","file":[{"file_size":5489897,"content_type":"application/pdf","access_level":"open_access","creator":"system","file_name":"IST-2016-515-v1+1_1-s2.0-S2211124716300262-main.pdf","checksum":"c98c1151d5f1e5ce1643a83d8d7f3c29","date_created":"2018-12-12T10:12:30Z","date_updated":"2020-07-14T12:44:58Z","file_id":"4948","relation":"main_file"}],"has_accepted_license":"1","year":"2016","month":"02","publisher":"Cell Press","oa":1,"pubrep_id":"515","author":[{"full_name":"Russo, Erica","first_name":"Erica","last_name":"Russo"},{"last_name":"Teijeira","first_name":"Alvaro","full_name":"Teijeira, Alvaro"},{"last_name":"Vaahtomeri","orcid":"0000-0001-7829-3518","id":"368EE576-F248-11E8-B48F-1D18A9856A87","first_name":"Kari","full_name":"Vaahtomeri, Kari"},{"full_name":"Willrodt, Ann","first_name":"Ann","last_name":"Willrodt"},{"first_name":"Joël","full_name":"Bloch, Joël","last_name":"Bloch"},{"first_name":"Maximilian","full_name":"Nitschké, Maximilian","last_name":"Nitschké"},{"last_name":"Santambrogio","first_name":"Laura","full_name":"Santambrogio, Laura"},{"first_name":"Dontscho","full_name":"Kerjaschki, Dontscho","last_name":"Kerjaschki"},{"last_name":"Sixt","orcid":"0000-0002-6620-9179","id":"41E9FBEA-F248-11E8-B48F-1D18A9856A87","first_name":"Michael K","full_name":"Sixt, Michael K"},{"full_name":"Halin, Cornelia","first_name":"Cornelia","last_name":"Halin"}],"title":"Intralymphatic CCL21 promotes tissue egress of dendritic cells through afferent lymphatic vessels","oa_version":"Published Version","doi":"10.1016/j.celrep.2016.01.048","page":"1723 - 1734"},{"_id":"1491","isi":1,"publication_status":"published","publication":"Transactions of the American Mathematical Society","issue":"9","article_processing_charge":"No","quality_controlled":"1","language":[{"iso":"eng"}],"scopus_import":"1","external_id":{"arxiv":["1405.3220"],"isi":["000370726100004"]},"volume":368,"abstract":[{"text":"We study the ground state of a trapped Bose gas, starting from the full many-body Schrödinger Hamiltonian, and derive the non-linear Schrödinger energy functional in the limit of a large particle number, when the interaction potential converges slowly to a Dirac delta function. Our method is based on quantitative estimates on the discrepancy between the full many-body energy and its mean-field approximation using Hartree states. These are proved using finite dimensional localization and a quantitative version of the quantum de Finetti theorem. Our approach covers the case of attractive interactions in the regime of stability. In particular, our main new result is a derivation of the 2D attractive non-linear Schrödinger ground state.","lang":"eng"}],"department":[{"_id":"RoSe"}],"citation":{"ista":"Lewin M, Nam P, Rougerie N. 2016. The mean-field approximation and the non-linear Schrödinger functional for trapped Bose gases. Transactions of the American Mathematical Society. 368(9), 6131–6157.","apa":"Lewin, M., Nam, P., &#38; Rougerie, N. (2016). The mean-field approximation and the non-linear Schrödinger functional for trapped Bose gases. <i>Transactions of the American Mathematical Society</i>. American Mathematical Society. <a href=\"https://doi.org/10.1090/tran/6537\">https://doi.org/10.1090/tran/6537</a>","mla":"Lewin, Mathieu, et al. “The Mean-Field Approximation and the Non-Linear Schrödinger Functional for Trapped Bose Gases.” <i>Transactions of the American Mathematical Society</i>, vol. 368, no. 9, American Mathematical Society, 2016, pp. 6131–57, doi:<a href=\"https://doi.org/10.1090/tran/6537\">10.1090/tran/6537</a>.","short":"M. Lewin, P. Nam, N. Rougerie, Transactions of the American Mathematical Society 368 (2016) 6131–6157.","chicago":"Lewin, Mathieu, Phan Nam, and Nicolas Rougerie. “The Mean-Field Approximation and the Non-Linear Schrödinger Functional for Trapped Bose Gases.” <i>Transactions of the American Mathematical Society</i>. American Mathematical Society, 2016. <a href=\"https://doi.org/10.1090/tran/6537\">https://doi.org/10.1090/tran/6537</a>.","ieee":"M. Lewin, P. Nam, and N. Rougerie, “The mean-field approximation and the non-linear Schrödinger functional for trapped Bose gases,” <i>Transactions of the American Mathematical Society</i>, vol. 368, no. 9. American Mathematical Society, pp. 6131–6157, 2016.","ama":"Lewin M, Nam P, Rougerie N. The mean-field approximation and the non-linear Schrödinger functional for trapped Bose gases. <i>Transactions of the American Mathematical Society</i>. 2016;368(9):6131-6157. doi:<a href=\"https://doi.org/10.1090/tran/6537\">10.1090/tran/6537</a>"},"acknowledgement":"The authors acknowledge financial support from the European Research Council (FP7/2007-2013 Grant Agreement MNIQS 258023) and the ANR (Mathostaq project, ANR-13-JS01-0005-01). The second and third authors have benefited from the hospitality of the Institute for Mathematical Science of the National University of Singapore.","date_published":"2016-01-01T00:00:00Z","publist_id":"5692","day":"01","arxiv":1,"status":"public","main_file_link":[{"open_access":"1","url":"http://arxiv.org/abs/1405.3220"}],"type":"journal_article","intvolume":"       368","year":"2016","month":"01","date_updated":"2025-09-18T11:15:32Z","user_id":"317138e5-6ab7-11ef-aa6d-ffef3953e345","date_created":"2018-12-11T11:52:20Z","oa_version":"Submitted Version","author":[{"last_name":"Lewin","first_name":"Mathieu","full_name":"Lewin, Mathieu"},{"id":"404092F4-F248-11E8-B48F-1D18A9856A87","last_name":"Nam","full_name":"Nam, Phan","first_name":"Phan"},{"last_name":"Rougerie","first_name":"Nicolas","full_name":"Rougerie, Nicolas"}],"title":"The mean-field approximation and the non-linear Schrödinger functional for trapped Bose gases","page":"6131 - 6157","doi":"10.1090/tran/6537","oa":1,"publisher":"American Mathematical Society"},{"oa":1,"publisher":"Cold Spring Harbor Laboratory Press","page":"471 - 483","doi":"10.1101/gad.276964.115","oa_version":"Published Version","title":"Targeted cell elimination reveals an auxin-guided biphasic mode of lateral root initiation","author":[{"first_name":"Peter","full_name":"Marhavy, Peter","last_name":"Marhavy","id":"3F45B078-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0001-5227-5741"},{"first_name":"Juan C","full_name":"Montesinos López, Juan C","last_name":"Montesinos López","id":"310A8E3E-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0001-9179-6099"},{"last_name":"Abuzeineh","full_name":"Abuzeineh, Anas","first_name":"Anas"},{"last_name":"Van Damme","full_name":"Van Damme, Daniël","first_name":"Daniël"},{"last_name":"Vermeer","full_name":"Vermeer, Joop","first_name":"Joop"},{"first_name":"Jérôme","full_name":"Duclercq, Jérôme","last_name":"Duclercq"},{"last_name":"Rakusova","first_name":"Hana","full_name":"Rakusova, Hana"},{"first_name":"Petra","full_name":"Marhavá, Petra","last_name":"Marhavá","id":"44E59624-F248-11E8-B48F-1D18A9856A87"},{"orcid":"0000-0002-8302-7596","id":"4159519E-F248-11E8-B48F-1D18A9856A87","last_name":"Friml","full_name":"Friml, Jirí","first_name":"Jirí"},{"last_name":"Geldner","full_name":"Geldner, Niko","first_name":"Niko"},{"last_name":"Benková","id":"38F4F166-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0002-8510-9739","first_name":"Eva","full_name":"Benková, Eva"}],"date_updated":"2025-09-18T11:14:08Z","corr_author":"1","date_created":"2018-12-11T11:52:20Z","user_id":"317138e5-6ab7-11ef-aa6d-ffef3953e345","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by-nc/4.0/legalcode","image":"/images/cc_by_nc.png","short":"CC BY-NC (4.0)","name":"Creative Commons Attribution-NonCommercial 4.0 International (CC BY-NC 4.0)"},"month":"03","year":"2016","has_accepted_license":"1","acknowledged_ssus":[{"_id":"LifeSc"}],"file":[{"creator":"kschuh","content_type":"application/pdf","file_size":2757636,"access_level":"open_access","date_created":"2019-01-25T09:56:11Z","relation":"main_file","file_id":"5883","date_updated":"2020-07-14T12:44:58Z","file_name":"2016_GeneDev_Marhavy.pdf","checksum":"ea394498ee56270e021d1028a29358a0"}],"intvolume":"        30","type":"journal_article","day":"01","publist_id":"5691","date_published":"2016-03-01T00:00:00Z","status":"public","acknowledgement":"This work was supported by a European Research Council Starting Inde-pendent Research grant (ERC-2007-Stg-207362-HCPO to J.D.), Research Foundation-Flanders (G033711N to A.A.), and the Austrian Science Fund (FWF01_I1774S to E.B.). P.M. is indebted to the Federation of European Biochemical Sciences for a Long-Term Fellowship. ","citation":{"short":"P. Marhavý, J.C. Montesinos López, A. Abuzeineh, D. Van Damme, J. Vermeer, J. Duclercq, H. Rakusova, P. Marhavá, J. Friml, N. Geldner, E. Benková, Genes and Development 30 (2016) 471–483.","mla":"Marhavý, Peter, et al. “Targeted Cell Elimination Reveals an Auxin-Guided Biphasic Mode of Lateral Root Initiation.” <i>Genes and Development</i>, vol. 30, no. 4, Cold Spring Harbor Laboratory Press, 2016, pp. 471–83, doi:<a href=\"https://doi.org/10.1101/gad.276964.115\">10.1101/gad.276964.115</a>.","chicago":"Marhavý, Peter, Juan C Montesinos López, Anas Abuzeineh, Daniël Van Damme, Joop Vermeer, Jérôme Duclercq, Hana Rakusova, et al. “Targeted Cell Elimination Reveals an Auxin-Guided Biphasic Mode of Lateral Root Initiation.” <i>Genes and Development</i>. Cold Spring Harbor Laboratory Press, 2016. <a href=\"https://doi.org/10.1101/gad.276964.115\">https://doi.org/10.1101/gad.276964.115</a>.","ieee":"P. Marhavý <i>et al.</i>, “Targeted cell elimination reveals an auxin-guided biphasic mode of lateral root initiation,” <i>Genes and Development</i>, vol. 30, no. 4. Cold Spring Harbor Laboratory Press, pp. 471–483, 2016.","ama":"Marhavý P, Montesinos López JC, Abuzeineh A, et al. Targeted cell elimination reveals an auxin-guided biphasic mode of lateral root initiation. <i>Genes and Development</i>. 2016;30(4):471-483. doi:<a href=\"https://doi.org/10.1101/gad.276964.115\">10.1101/gad.276964.115</a>","ista":"Marhavý P, Montesinos López JC, Abuzeineh A, Van Damme D, Vermeer J, Duclercq J, Rakusova H, Marhavá P, Friml J, Geldner N, Benková E. 2016. Targeted cell elimination reveals an auxin-guided biphasic mode of lateral root initiation. Genes and Development. 30(4), 471–483.","apa":"Marhavý, P., Montesinos López, J. C., Abuzeineh, A., Van Damme, D., Vermeer, J., Duclercq, J., … Benková, E. (2016). Targeted cell elimination reveals an auxin-guided biphasic mode of lateral root initiation. <i>Genes and Development</i>. Cold Spring Harbor Laboratory Press. <a href=\"https://doi.org/10.1101/gad.276964.115\">https://doi.org/10.1101/gad.276964.115</a>"},"abstract":[{"text":"To sustain a lifelong ability to initiate organs, plants retain pools of undifferentiated cells with a preserved prolif eration capacity. The root pericycle represents a unique tissue with conditional meristematic activity, and its tight control determines initiation of lateral organs. Here we show that the meristematic activity of the pericycle is constrained by the interaction with the adjacent endodermis. Release of these restraints by elimination of endo dermal cells by single-cell ablation triggers the pericycle to re-enter the cell cycle. We found that endodermis removal substitutes for the phytohormone auxin-dependent initiation of the pericycle meristematic activity. However, auxin is indispensable to steer the cell division plane orientation of new organ-defining divisions. We propose a dual, spatiotemporally distinct role for auxin during lateral root initiation. In the endodermis, auxin releases constraints arising from cell-to-cell interactions that compromise the pericycle meristematic activity, whereas, in the pericycle, auxin defines the orientation of the cell division plane to initiate lateral roots.","lang":"eng"}],"license":"https://creativecommons.org/licenses/by-nc/4.0/","volume":30,"file_date_updated":"2020-07-14T12:44:58Z","pmid":1,"department":[{"_id":"EvBe"}],"ddc":["570"],"language":[{"iso":"eng"}],"quality_controlled":"1","external_id":{"pmid":["    26883363"],"isi":["000370131500009"]},"scopus_import":"1","publication_status":"published","publication":"Genes and Development","article_processing_charge":"No","issue":"4","_id":"1492","isi":1},{"user_id":"317138e5-6ab7-11ef-aa6d-ffef3953e345","date_created":"2018-12-11T11:52:20Z","corr_author":"1","date_updated":"2025-09-18T11:12:46Z","tmp":{"name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)","image":"/images/cc_by.png","legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode"},"month":"03","file":[{"file_name":"IST-2016-514-v1+1_s11040-016-9204-2.pdf","checksum":"eb5d2145ef0d377c4f78bf06e18f4529","date_created":"2018-12-12T10:16:55Z","file_id":"5246","relation":"main_file","date_updated":"2020-07-14T12:44:58Z","content_type":"application/pdf","file_size":911310,"access_level":"open_access","creator":"system"}],"has_accepted_license":"1","year":"2016","pubrep_id":"514","oa":1,"publisher":"Springer","doi":"10.1007/s11040-016-9204-2","author":[{"id":"40AC02DC-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0002-9166-5889","last_name":"Petrat","full_name":"Petrat, Sören P","first_name":"Sören P"},{"full_name":"Pickl, Peter","first_name":"Peter","last_name":"Pickl"}],"title":"A new method and a new scaling for deriving fermionic mean-field dynamics","oa_version":"Published Version","department":[{"_id":"RoSe"}],"ddc":["510","530"],"file_date_updated":"2020-07-14T12:44:58Z","volume":19,"abstract":[{"lang":"eng","text":"We introduce a new method for deriving the time-dependent Hartree or Hartree-Fock equations as an effective mean-field dynamics from the microscopic Schrödinger equation for fermionic many-particle systems in quantum mechanics. The method is an adaption of the method used in Pickl (Lett. Math. Phys. 97 (2) 151–164 2011) for bosonic systems to fermionic systems. It is based on a Gronwall type estimate for a suitable measure of distance between the microscopic solution and an antisymmetrized product state. We use this method to treat a new mean-field limit for fermions with long-range interactions in a large volume. Some of our results hold for singular attractive or repulsive interactions. We can also treat Coulomb interaction assuming either a mild singularity cutoff or certain regularity conditions on the solutions to the Hartree(-Fock) equations. In the considered limit, the kinetic and interaction energy are of the same order, while the average force is subleading. For some interactions, we prove that the Hartree(-Fock) dynamics is a more accurate approximation than a simpler dynamics that one would expect from the subleading force. With our method we also treat the mean-field limit coupled to a semiclassical limit, which was discussed in the literature before, and we recover some of the previous results. All results hold for initial data close (but not necessarily equal) to antisymmetrized product states and we always provide explicit rates of convergence."}],"scopus_import":"1","external_id":{"isi":["000374267300003"]},"quality_controlled":"1","language":[{"iso":"eng"}],"issue":"1","article_processing_charge":"Yes (via OA deal)","publication":"Mathematical Physics, Analysis and Geometry","publication_status":"published","isi":1,"project":[{"call_identifier":"FP7","name":"International IST Postdoc Fellowship Programme","_id":"25681D80-B435-11E9-9278-68D0E5697425","grant_number":"291734"},{"name":"IST Austria Open Access Fund","_id":"B67AFEDC-15C9-11EA-A837-991A96BB2854"}],"_id":"1493","intvolume":"        19","type":"journal_article","ec_funded":1,"status":"public","publist_id":"5690","date_published":"2016-03-01T00:00:00Z","day":"01","article_number":"3","citation":{"ista":"Petrat SP, Pickl P. 2016. A new method and a new scaling for deriving fermionic mean-field dynamics. Mathematical Physics, Analysis and Geometry. 19(1), 3.","apa":"Petrat, S. P., &#38; Pickl, P. (2016). A new method and a new scaling for deriving fermionic mean-field dynamics. <i>Mathematical Physics, Analysis and Geometry</i>. Springer. <a href=\"https://doi.org/10.1007/s11040-016-9204-2\">https://doi.org/10.1007/s11040-016-9204-2</a>","chicago":"Petrat, Sören P, and Peter Pickl. “A New Method and a New Scaling for Deriving Fermionic Mean-Field Dynamics.” <i>Mathematical Physics, Analysis and Geometry</i>. Springer, 2016. <a href=\"https://doi.org/10.1007/s11040-016-9204-2\">https://doi.org/10.1007/s11040-016-9204-2</a>.","mla":"Petrat, Sören P., and Peter Pickl. “A New Method and a New Scaling for Deriving Fermionic Mean-Field Dynamics.” <i>Mathematical Physics, Analysis and Geometry</i>, vol. 19, no. 1, 3, Springer, 2016, doi:<a href=\"https://doi.org/10.1007/s11040-016-9204-2\">10.1007/s11040-016-9204-2</a>.","short":"S.P. Petrat, P. Pickl, Mathematical Physics, Analysis and Geometry 19 (2016).","ama":"Petrat SP, Pickl P. A new method and a new scaling for deriving fermionic mean-field dynamics. <i>Mathematical Physics, Analysis and Geometry</i>. 2016;19(1). doi:<a href=\"https://doi.org/10.1007/s11040-016-9204-2\">10.1007/s11040-016-9204-2</a>","ieee":"S. P. Petrat and P. Pickl, “A new method and a new scaling for deriving fermionic mean-field dynamics,” <i>Mathematical Physics, Analysis and Geometry</i>, vol. 19, no. 1. Springer, 2016."},"acknowledgement":"Open access funding provided by Institute of Science and Technology (IST Austria). "},{"publisher":"Nature Publishing Group","oa_version":"None","author":[{"full_name":"Lemoult, Grégoire M","first_name":"Grégoire M","id":"4787FE80-F248-11E8-B48F-1D18A9856A87","last_name":"Lemoult"},{"first_name":"Liang","full_name":"Shi, Liang","last_name":"Shi","id":"374A3F1A-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Avila","full_name":"Avila, Kerstin","first_name":"Kerstin"},{"first_name":"Shreyas V","full_name":"Jalikop, Shreyas V","last_name":"Jalikop","id":"44A1D772-F248-11E8-B48F-1D18A9856A87"},{"full_name":"Avila, Marc","first_name":"Marc","last_name":"Avila"},{"full_name":"Hof, Björn","first_name":"Björn","id":"3A374330-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0003-2057-2754","last_name":"Hof"}],"title":"Directed percolation phase transition to sustained turbulence in Couette flow","page":"254 - 258","doi":"10.1038/nphys3675","date_updated":"2025-09-18T11:11:31Z","user_id":"317138e5-6ab7-11ef-aa6d-ffef3953e345","date_created":"2018-12-11T11:52:21Z","year":"2016","month":"02","ec_funded":1,"type":"journal_article","intvolume":"        12","acknowledgement":"We thank P. Maier for providing valuable ideas and supporting us in the technical aspects. Discussions with D. Barkley, Y. Duguet, B. Eckhart, N. Goldenfeld, P. Manneville and K. Takeuchi are gratefully acknowledged. We acknowledge the Deutsche Forschungsgemeinschaft (Project No. FOR 1182), and the European Research Council under the European Union’s Seventh Framework Programme (FP/2007-2013)/ERC Grant Agreement 306589 for financial support. L.S. and B.H. acknowledge research funding by Deutsche Forschungsgemeinschaft (DFG) under Grant No. SFB 963/1 (project A8). Numerical simulations were performed thanks to the CPU time allocations of JUROPA in Juelich Supercomputing Center (project HGU17) and of the Max Planck Computing and Data Facility (Garching, Germany). Excellent technical support from M. Rampp on the hybrid code nsCouette is appreciated.","citation":{"chicago":"Lemoult, Grégoire M, Liang Shi, Kerstin Avila, Shreyas V Jalikop, Marc Avila, and Björn Hof. “Directed Percolation Phase Transition to Sustained Turbulence in Couette Flow.” <i>Nature Physics</i>. Nature Publishing Group, 2016. <a href=\"https://doi.org/10.1038/nphys3675\">https://doi.org/10.1038/nphys3675</a>.","mla":"Lemoult, Grégoire M., et al. “Directed Percolation Phase Transition to Sustained Turbulence in Couette Flow.” <i>Nature Physics</i>, vol. 12, no. 3, Nature Publishing Group, 2016, pp. 254–58, doi:<a href=\"https://doi.org/10.1038/nphys3675\">10.1038/nphys3675</a>.","short":"G.M. Lemoult, L. Shi, K. Avila, S.V. Jalikop, M. Avila, B. Hof, Nature Physics 12 (2016) 254–258.","ama":"Lemoult GM, Shi L, Avila K, Jalikop SV, Avila M, Hof B. Directed percolation phase transition to sustained turbulence in Couette flow. <i>Nature Physics</i>. 2016;12(3):254-258. doi:<a href=\"https://doi.org/10.1038/nphys3675\">10.1038/nphys3675</a>","ieee":"G. M. Lemoult, L. Shi, K. Avila, S. V. Jalikop, M. Avila, and B. Hof, “Directed percolation phase transition to sustained turbulence in Couette flow,” <i>Nature Physics</i>, vol. 12, no. 3. Nature Publishing Group, pp. 254–258, 2016.","ista":"Lemoult GM, Shi L, Avila K, Jalikop SV, Avila M, Hof B. 2016. Directed percolation phase transition to sustained turbulence in Couette flow. Nature Physics. 12(3), 254–258.","apa":"Lemoult, G. M., Shi, L., Avila, K., Jalikop, S. V., Avila, M., &#38; Hof, B. (2016). Directed percolation phase transition to sustained turbulence in Couette flow. <i>Nature Physics</i>. Nature Publishing Group. <a href=\"https://doi.org/10.1038/nphys3675\">https://doi.org/10.1038/nphys3675</a>"},"publist_id":"5685","date_published":"2016-02-15T00:00:00Z","day":"15","status":"public","quality_controlled":"1","language":[{"iso":"eng"}],"scopus_import":"1","external_id":{"isi":["000371505200019"]},"volume":12,"abstract":[{"lang":"eng","text":"Turbulence is one of the most frequently encountered non-equilibrium phenomena in nature, yet characterizing the transition that gives rise to turbulence in basic shear flows has remained an elusive task. Although, in recent studies, critical points marking the onset of sustained turbulence have been determined for several such flows, the physical nature of the transition could not be fully explained. In extensive experimental and computational studies we show for the example of Couette flow that the onset of turbulence is a second-order phase transition and falls into the directed percolation universality class. Consequently, the complex laminar–turbulent patterns distinctive for the onset of turbulence in shear flows result from short-range interactions of turbulent domains and are characterized by universal critical exponents. More generally, our study demonstrates that even high-dimensional systems far from equilibrium such as turbulence exhibit universality at onset and that here the collective dynamics obeys simple rules."}],"department":[{"_id":"BjHo"}],"_id":"1494","isi":1,"project":[{"name":"Decoding the complexity of turbulence at its origin","grant_number":"306589","_id":"25152F3A-B435-11E9-9278-68D0E5697425","call_identifier":"FP7"},{"grant_number":"SFB 963  TP A8","_id":"2511D90C-B435-11E9-9278-68D0E5697425","name":"Astrophysical instability of currents and turbulences"}],"publication_status":"published","publication":"Nature Physics","issue":"3","article_processing_charge":"No"},{"oa_version":"Preprint","title":"Relativistic evaluation of the two-photon decay of the metastable 1s22s2p3P0 state in berylliumlike ions with an effective-potential model","author":[{"first_name":"Pedro","full_name":"Amaro, Pedro","last_name":"Amaro"},{"last_name":"Fratini","first_name":"Filippo","full_name":"Fratini, Filippo"},{"full_name":"Safari, Laleh","first_name":"Laleh","id":"3C325E5E-F248-11E8-B48F-1D18A9856A87","last_name":"Safari"},{"last_name":"Machado","full_name":"Machado, Jorge","first_name":"Jorge"},{"first_name":"Mauro","full_name":"Guerra, Mauro","last_name":"Guerra"},{"full_name":"Indelicato, Paul","first_name":"Paul","last_name":"Indelicato"},{"first_name":"José","full_name":"Santos, José","last_name":"Santos"}],"doi":"10.1103/PhysRevA.93.032502","oa":1,"publisher":"American Physical Society","year":"2016","month":"03","date_updated":"2025-09-18T11:10:38Z","date_created":"2018-12-11T11:52:21Z","user_id":"317138e5-6ab7-11ef-aa6d-ffef3953e345","acknowledgement":"This  research  was  supported  in  part  by  FCT, Portugal, through Project No. PTDC/FIS/117606/2010, financed by the European Community  Fund  FEDER  through  the  COMPETE. ","citation":{"ieee":"P. Amaro <i>et al.</i>, “Relativistic evaluation of the two-photon decay of the metastable 1s22s2p3P0 state in berylliumlike ions with an effective-potential model,” <i>Physical Review A - Atomic, Molecular, and Optical Physics</i>, vol. 93, no. 3. American Physical Society, 2016.","ama":"Amaro P, Fratini F, Safari L, et al. Relativistic evaluation of the two-photon decay of the metastable 1s22s2p3P0 state in berylliumlike ions with an effective-potential model. <i>Physical Review A - Atomic, Molecular, and Optical Physics</i>. 2016;93(3). doi:<a href=\"https://doi.org/10.1103/PhysRevA.93.032502\">10.1103/PhysRevA.93.032502</a>","short":"P. Amaro, F. Fratini, L. Safari, J. Machado, M. Guerra, P. Indelicato, J. Santos, Physical Review A - Atomic, Molecular, and Optical Physics 93 (2016).","mla":"Amaro, Pedro, et al. “Relativistic Evaluation of the Two-Photon Decay of the Metastable 1s22s2p3P0 State in Berylliumlike Ions with an Effective-Potential Model.” <i>Physical Review A - Atomic, Molecular, and Optical Physics</i>, vol. 93, no. 3, 032502, American Physical Society, 2016, doi:<a href=\"https://doi.org/10.1103/PhysRevA.93.032502\">10.1103/PhysRevA.93.032502</a>.","chicago":"Amaro, Pedro, Filippo Fratini, Laleh Safari, Jorge Machado, Mauro Guerra, Paul Indelicato, and José Santos. “Relativistic Evaluation of the Two-Photon Decay of the Metastable 1s22s2p3P0 State in Berylliumlike Ions with an Effective-Potential Model.” <i>Physical Review A - Atomic, Molecular, and Optical Physics</i>. American Physical Society, 2016. <a href=\"https://doi.org/10.1103/PhysRevA.93.032502\">https://doi.org/10.1103/PhysRevA.93.032502</a>.","apa":"Amaro, P., Fratini, F., Safari, L., Machado, J., Guerra, M., Indelicato, P., &#38; Santos, J. (2016). Relativistic evaluation of the two-photon decay of the metastable 1s22s2p3P0 state in berylliumlike ions with an effective-potential model. <i>Physical Review A - Atomic, Molecular, and Optical Physics</i>. American Physical Society. <a href=\"https://doi.org/10.1103/PhysRevA.93.032502\">https://doi.org/10.1103/PhysRevA.93.032502</a>","ista":"Amaro P, Fratini F, Safari L, Machado J, Guerra M, Indelicato P, Santos J. 2016. Relativistic evaluation of the two-photon decay of the metastable 1s22s2p3P0 state in berylliumlike ions with an effective-potential model. Physical Review A - Atomic, Molecular, and Optical Physics. 93(3), 032502."},"article_number":"032502","day":"07","date_published":"2016-03-07T00:00:00Z","publist_id":"5683","status":"public","arxiv":1,"main_file_link":[{"open_access":"1","url":"http://arxiv.org/abs/1508.06169"}],"ec_funded":1,"type":"journal_article","intvolume":"        93","_id":"1496","project":[{"name":"International IST Postdoc Fellowship Programme","_id":"25681D80-B435-11E9-9278-68D0E5697425","grant_number":"291734","call_identifier":"FP7"}],"isi":1,"publication":"Physical Review A - Atomic, Molecular, and Optical Physics","publication_status":"published","article_processing_charge":"No","issue":"3","language":[{"iso":"eng"}],"quality_controlled":"1","scopus_import":"1","external_id":{"arxiv":["1508.06169"],"isi":["000371724100008"]},"abstract":[{"lang":"eng","text":"The two-photon 1s2 2s 2p 3P0 1s22s2 1S0 transition in berylliumlike ions is theoretically investigated within a fully relativistic framework and a second-order perturbation theory. We focus our analysis on how electron correlation, as well as the negative-energy spectrum, can affect the forbidden E1M1 decay rate. For this purpose, we include the electronic correlation via an effective local potential and within a single configuration-state model. Due to its experimental interest, evaluations of decay rates are performed for berylliumlike xenon and uranium. We find that the negative-energy contribution can be neglected at the present level of accuracy in the evaluation of the decay rate. On the other hand, if contributions of electronic correlation are not carefully taken into account, it may change the lifetime of the metastable state by up to 20%. By performing a full-relativistic jj-coupling calculation, we found a decrease of the decay rate by two orders of magnitude compared to non-relativistic LS-coupling calculations, for the selected heavy ions."}],"volume":93,"department":[{"_id":"MiLe"}]},{"pubrep_id":"561","oa":1,"publisher":"Genetics Society of America","doi":"10.1534/genetics.115.183814","page":"775 - 786","author":[{"first_name":"Konrad","full_name":"Lohse, Konrad","last_name":"Lohse"},{"full_name":"Chmelik, Martin","first_name":"Martin","id":"3624234E-F248-11E8-B48F-1D18A9856A87","last_name":"Chmelik"},{"last_name":"Martin","first_name":"Simon","full_name":"Martin, Simon"},{"last_name":"Barton","id":"4880FE40-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0002-8548-5240","first_name":"Nicholas H","full_name":"Barton, Nicholas H"}],"title":"Efficient strategies for calculating blockwise likelihoods under the coalescent","oa_version":"Preprint","user_id":"317138e5-6ab7-11ef-aa6d-ffef3953e345","date_created":"2018-12-11T11:52:29Z","date_updated":"2025-09-18T11:09:34Z","month":"02","file":[{"checksum":"41c9b5d72e7fe4624dd22dfe622337d5","file_name":"IST-2016-561-v1+1_Lohse_et_al_Genetics_2015.pdf","date_updated":"2020-07-14T12:45:00Z","relation":"main_file","file_id":"5241","date_created":"2018-12-12T10:16:51Z","access_level":"open_access","file_size":957466,"content_type":"application/pdf","creator":"system"}],"has_accepted_license":"1","article_type":"original","year":"2016","intvolume":"       202","type":"journal_article","ec_funded":1,"status":"public","publist_id":"5658","date_published":"2016-02-01T00:00:00Z","day":"01","citation":{"ieee":"K. Lohse, M. Chmelik, S. Martin, and N. H. Barton, “Efficient strategies for calculating blockwise likelihoods under the coalescent,” <i>Genetics</i>, vol. 202, no. 2. Genetics Society of America, pp. 775–786, 2016.","ama":"Lohse K, Chmelik M, Martin S, Barton NH. Efficient strategies for calculating blockwise likelihoods under the coalescent. <i>Genetics</i>. 2016;202(2):775-786. doi:<a href=\"https://doi.org/10.1534/genetics.115.183814\">10.1534/genetics.115.183814</a>","mla":"Lohse, Konrad, et al. “Efficient Strategies for Calculating Blockwise Likelihoods under the Coalescent.” <i>Genetics</i>, vol. 202, no. 2, Genetics Society of America, 2016, pp. 775–86, doi:<a href=\"https://doi.org/10.1534/genetics.115.183814\">10.1534/genetics.115.183814</a>.","short":"K. Lohse, M. Chmelik, S. Martin, N.H. Barton, Genetics 202 (2016) 775–786.","chicago":"Lohse, Konrad, Martin Chmelik, Simon Martin, and Nicholas H Barton. “Efficient Strategies for Calculating Blockwise Likelihoods under the Coalescent.” <i>Genetics</i>. Genetics Society of America, 2016. <a href=\"https://doi.org/10.1534/genetics.115.183814\">https://doi.org/10.1534/genetics.115.183814</a>.","apa":"Lohse, K., Chmelik, M., Martin, S., &#38; Barton, N. H. (2016). Efficient strategies for calculating blockwise likelihoods under the coalescent. <i>Genetics</i>. Genetics Society of America. <a href=\"https://doi.org/10.1534/genetics.115.183814\">https://doi.org/10.1534/genetics.115.183814</a>","ista":"Lohse K, Chmelik M, Martin S, Barton NH. 2016. Efficient strategies for calculating blockwise likelihoods under the coalescent. Genetics. 202(2), 775–786."},"acknowledgement":"We thank Lynsey Bunnefeld for discussions throughout the project and Joshua Schraiber and one anonymous reviewer\r\nfor constructive comments on an earlier version of this manuscript. This work was supported by funding from the\r\nUnited Kingdom Natural Environment Research Council (to K.L.) (NE/I020288/1) and a grant from the European\r\nResearch Council (250152) (to N.H.B.).","ddc":["570"],"department":[{"_id":"KrCh"},{"_id":"NiBa"}],"pmid":1,"volume":202,"file_date_updated":"2020-07-14T12:45:00Z","abstract":[{"lang":"eng","text":"The inference of demographic history from genome data is hindered by a lack of efficient computational approaches. In particular, it has proved difficult to exploit the information contained in the distribution of genealogies across the genome. We have previously shown that the generating function (GF) of genealogies can be used to analytically compute likelihoods of demographic models from configurations of mutations in short sequence blocks (Lohse et al. 2011). Although the GF has a simple, recursive form, the size of such likelihood calculations explodes quickly with the number of individuals and applications of this framework have so far been mainly limited to small samples (pairs and triplets) for which the GF can be written by hand. Here we investigate several strategies for exploiting the inherent symmetries of the coalescent. In particular, we show that the GF of genealogies can be decomposed into a set of equivalence classes that allows likelihood calculations from nontrivial samples. Using this strategy, we automated blockwise likelihood calculations for a general set of demographic scenarios in Mathematica. These histories may involve population size changes, continuous migration, discrete divergence, and admixture between multiple populations. To give a concrete example, we calculate the likelihood for a model of isolation with migration (IM), assuming two diploid samples without phase and outgroup information. We demonstrate the new inference scheme with an analysis of two individual butterfly genomes from the sister species Heliconius melpomene rosina and H. cydno."}],"external_id":{"pmid":["26715666"],"isi":["000371304600032"]},"scopus_import":"1","quality_controlled":"1","language":[{"iso":"eng"}],"issue":"2","article_processing_charge":"No","publication":"Genetics","publication_status":"published","isi":1,"project":[{"name":"Limits to selection in biology and in evolutionary computation","_id":"25B07788-B435-11E9-9278-68D0E5697425","grant_number":"250152","call_identifier":"FP7"}],"_id":"1518"},{"department":[{"_id":"LeSa"}],"volume":1857,"abstract":[{"text":"Complex I (NADH:ubiquinone oxidoreductase) plays a central role in cellular energy production, coupling electron transfer between NADH and quinone to proton translocation. It is the largest protein assembly of respiratory chains and one of the most elaborate redox membrane proteins known. Bacterial enzyme is about half the size of mitochondrial and thus provides its important &quot;minimal&quot; model. Dysfunction of mitochondrial complex I is implicated in many human neurodegenerative diseases. The L-shaped complex consists of a hydrophilic arm, where electron transfer occurs, and a membrane arm, where proton translocation takes place. We have solved the crystal structures of the hydrophilic domain of complex I from Thermus thermophilus, the membrane domain from Escherichia coli and recently of the intact, entire complex I from T. thermophilus (536. kDa, 16 subunits, 9 iron-sulphur clusters, 64 transmembrane helices). The 95. Å long electron transfer pathway through the enzyme proceeds from the primary electron acceptor flavin mononucleotide through seven conserved Fe-S clusters to the unusual elongated quinone-binding site at the interface with the membrane domain. Four putative proton translocation channels are found in the membrane domain, all linked by the central flexible axis containing charged residues. The redox energy of electron transfer is coupled to proton translocation by the as yet undefined mechanism proposed to involve long-range conformational changes. This article is part of a Special Issue entitled Respiratory complex I, edited by Volker Zickermann and Ulrich Brandt.","lang":"eng"}],"scopus_import":"1","external_id":{"isi":["000377727500005"]},"quality_controlled":"1","language":[{"iso":"eng"}],"issue":"7","article_processing_charge":"No","publication":"Biochimica et Biophysica Acta - Bioenergetics","publication_status":"published","isi":1,"_id":"1521","intvolume":"      1857","type":"journal_article","status":"public","publist_id":"5654","date_published":"2016-07-01T00:00:00Z","day":"01","citation":{"apa":"Berrisford, J., Baradaran, R., &#38; Sazanov, L. A. (2016). Structure of bacterial respiratory complex I. <i>Biochimica et Biophysica Acta - Bioenergetics</i>. Elsevier. <a href=\"https://doi.org/10.1016/j.bbabio.2016.01.012\">https://doi.org/10.1016/j.bbabio.2016.01.012</a>","ista":"Berrisford J, Baradaran R, Sazanov LA. 2016. Structure of bacterial respiratory complex I. Biochimica et Biophysica Acta - Bioenergetics. 1857(7), 892–901.","ieee":"J. Berrisford, R. Baradaran, and L. A. Sazanov, “Structure of bacterial respiratory complex I,” <i>Biochimica et Biophysica Acta - Bioenergetics</i>, vol. 1857, no. 7. Elsevier, pp. 892–901, 2016.","ama":"Berrisford J, Baradaran R, Sazanov LA. Structure of bacterial respiratory complex I. <i>Biochimica et Biophysica Acta - Bioenergetics</i>. 2016;1857(7):892-901. doi:<a href=\"https://doi.org/10.1016/j.bbabio.2016.01.012\">10.1016/j.bbabio.2016.01.012</a>","short":"J. Berrisford, R. Baradaran, L.A. Sazanov, Biochimica et Biophysica Acta - Bioenergetics 1857 (2016) 892–901.","mla":"Berrisford, John, et al. “Structure of Bacterial Respiratory Complex I.” <i>Biochimica et Biophysica Acta - Bioenergetics</i>, vol. 1857, no. 7, Elsevier, 2016, pp. 892–901, doi:<a href=\"https://doi.org/10.1016/j.bbabio.2016.01.012\">10.1016/j.bbabio.2016.01.012</a>.","chicago":"Berrisford, John, Rozbeh Baradaran, and Leonid A Sazanov. “Structure of Bacterial Respiratory Complex I.” <i>Biochimica et Biophysica Acta - Bioenergetics</i>. Elsevier, 2016. <a href=\"https://doi.org/10.1016/j.bbabio.2016.01.012\">https://doi.org/10.1016/j.bbabio.2016.01.012</a>."},"acknowledgement":"funded by the Medical Research Council (Grant number MC_U105674180)","user_id":"317138e5-6ab7-11ef-aa6d-ffef3953e345","date_created":"2018-12-11T11:52:30Z","corr_author":"1","date_updated":"2025-09-18T11:08:50Z","month":"07","year":"2016","publisher":"Elsevier","doi":"10.1016/j.bbabio.2016.01.012","page":"892 - 901","author":[{"last_name":"Berrisford","full_name":"Berrisford, John","first_name":"John"},{"last_name":"Baradaran","first_name":"Rozbeh","full_name":"Baradaran, Rozbeh"},{"full_name":"Sazanov, Leonid A","first_name":"Leonid A","id":"338D39FE-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0002-0977-7989","last_name":"Sazanov"}],"title":"Structure of bacterial respiratory complex I","oa_version":"None"},{"day":"01","publist_id":"5652","date_published":"2016-01-01T00:00:00Z","status":"public","arxiv":1,"acknowledgement":"I thank A. Skopenkov for telling me about the problem and for his useful remarks.  I also thank A. Sossinsky,\r\nA. Zhubr, M. Skopenkov, P. Akhmetiev, and an anonymous referee for their feedback.  Author was partially\r\nsupported by Dobrushin fellowship, 2013, and by RFBR grant 15-01-06302.","citation":{"ista":"Avvakumov S. 2016. The classification of certain linked 3-manifolds in 6-space. Moscow Mathematical Journal. 16(1), 1–25.","apa":"Avvakumov, S. (2016). The classification of certain linked 3-manifolds in 6-space. <i>Moscow Mathematical Journal</i>. Independent University of Moscow. <a href=\"https://doi.org/10.17323/1609-4514-2016-16-1-1-25\">https://doi.org/10.17323/1609-4514-2016-16-1-1-25</a>","mla":"Avvakumov, Sergey. “The Classification of Certain Linked 3-Manifolds in 6-Space.” <i>Moscow Mathematical Journal</i>, vol. 16, no. 1, Independent University of Moscow, 2016, pp. 1–25, doi:<a href=\"https://doi.org/10.17323/1609-4514-2016-16-1-1-25\">10.17323/1609-4514-2016-16-1-1-25</a>.","short":"S. Avvakumov, Moscow Mathematical Journal 16 (2016) 1–25.","chicago":"Avvakumov, Sergey. “The Classification of Certain Linked 3-Manifolds in 6-Space.” <i>Moscow Mathematical Journal</i>. Independent University of Moscow, 2016. <a href=\"https://doi.org/10.17323/1609-4514-2016-16-1-1-25\">https://doi.org/10.17323/1609-4514-2016-16-1-1-25</a>.","ieee":"S. Avvakumov, “The classification of certain linked 3-manifolds in 6-space,” <i>Moscow Mathematical Journal</i>, vol. 16, no. 1. Independent University of Moscow, pp. 1–25, 2016.","ama":"Avvakumov S. The classification of certain linked 3-manifolds in 6-space. <i>Moscow Mathematical Journal</i>. 2016;16(1):1-25. doi:<a href=\"https://doi.org/10.17323/1609-4514-2016-16-1-1-25\">10.17323/1609-4514-2016-16-1-1-25</a>"},"intvolume":"        16","main_file_link":[{"url":"http://arxiv.org/abs/1408.3918","open_access":"1"}],"type":"journal_article","publication":"Moscow Mathematical Journal","publication_status":"published","article_processing_charge":"No","issue":"1","_id":"1522","abstract":[{"text":"We classify smooth Brunnian (i.e., unknotted on both components) embeddings (S2 × S1) ⊔ S3 → ℝ6. Any Brunnian embedding (S2 × S1) ⊔ S3 → ℝ6 is isotopic to an explicitly constructed embedding fk,m,n for some integers k, m, n such that m ≡ n (mod 2). Two embeddings fk,m,n and fk′ ,m′,n′ are isotopic if and only if k = k′, m ≡ m′ (mod 2k) and n ≡ n′ (mod 2k). We use Haefliger’s classification of embeddings S3 ⊔ S3 → ℝ6 in our proof. The relation between the embeddings (S2 × S1) ⊔ S3 → ℝ6 and S3 ⊔ S3 → ℝ6 is not trivial, however. For example, we show that there exist embeddings f: (S2 ×S1) ⊔ S3 → ℝ6 and g, g′ : S3 ⊔ S3 → ℝ6 such that the componentwise embedded connected sum f # g is isotopic to f # g′ but g is not isotopic to g′.","lang":"eng"}],"volume":16,"department":[{"_id":"UlWa"}],"language":[{"iso":"eng"}],"quality_controlled":"1","external_id":{"arxiv":["1408.3918"]},"scopus_import":"1","page":"1 - 25","doi":"10.17323/1609-4514-2016-16-1-1-25","oa_version":"Preprint","title":"The classification of certain linked 3-manifolds in 6-space","author":[{"last_name":"Avvakumov","id":"3827DAC8-F248-11E8-B48F-1D18A9856A87","first_name":"Serhii","full_name":"Avvakumov, Serhii"}],"oa":1,"publisher":"Independent University of Moscow","month":"01","year":"2016","publication_identifier":{"eissn":["1609-4514"]},"article_type":"original","date_updated":"2024-10-09T20:56:44Z","corr_author":"1","date_created":"2018-12-11T11:52:30Z","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87"},{"oa":1,"publisher":"American Mathematical Society","page":"1815 - 1828","doi":"10.1090/proc/12824","oa_version":"Preprint","title":"On topological minors in random simplicial complexes","author":[{"last_name":"Gundert","full_name":"Gundert, Anna","first_name":"Anna"},{"last_name":"Wagner","id":"36690CA2-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0002-1494-0568","first_name":"Uli","full_name":"Wagner, Uli"}],"date_updated":"2025-09-18T11:07:39Z","corr_author":"1","date_created":"2018-12-11T11:52:30Z","user_id":"317138e5-6ab7-11ef-aa6d-ffef3953e345","month":"04","year":"2016","intvolume":"       144","main_file_link":[{"open_access":"1","url":"http://arxiv.org/abs/1404.2106"}],"type":"journal_article","day":"01","publist_id":"5650","date_published":"2016-04-01T00:00:00Z","status":"public","arxiv":1,"citation":{"ama":"Gundert A, Wagner U. On topological minors in random simplicial complexes. <i>Proceedings of the American Mathematical Society</i>. 2016;144(4):1815-1828. doi:<a href=\"https://doi.org/10.1090/proc/12824\">10.1090/proc/12824</a>","ieee":"A. Gundert and U. Wagner, “On topological minors in random simplicial complexes,” <i>Proceedings of the American Mathematical Society</i>, vol. 144, no. 4. American Mathematical Society, pp. 1815–1828, 2016.","chicago":"Gundert, Anna, and Uli Wagner. “On Topological Minors in Random Simplicial Complexes.” <i>Proceedings of the American Mathematical Society</i>. American Mathematical Society, 2016. <a href=\"https://doi.org/10.1090/proc/12824\">https://doi.org/10.1090/proc/12824</a>.","short":"A. Gundert, U. Wagner, Proceedings of the American Mathematical Society 144 (2016) 1815–1828.","mla":"Gundert, Anna, and Uli Wagner. “On Topological Minors in Random Simplicial Complexes.” <i>Proceedings of the American Mathematical Society</i>, vol. 144, no. 4, American Mathematical Society, 2016, pp. 1815–28, doi:<a href=\"https://doi.org/10.1090/proc/12824\">10.1090/proc/12824</a>.","apa":"Gundert, A., &#38; Wagner, U. (2016). On topological minors in random simplicial complexes. <i>Proceedings of the American Mathematical Society</i>. American Mathematical Society. <a href=\"https://doi.org/10.1090/proc/12824\">https://doi.org/10.1090/proc/12824</a>","ista":"Gundert A, Wagner U. 2016. On topological minors in random simplicial complexes. Proceedings of the American Mathematical Society. 144(4), 1815–1828."},"acknowledgement":"This research was supported by the Swiss National Science Foundation (SNF Projects 200021-125309 and 200020-138230","abstract":[{"text":"For random graphs, the containment problem considers the probability that a binomial random graph G(n, p) contains a given graph as a substructure. When asking for the graph as a topological minor, i.e., for a copy of a subdivision of the given graph, it is well known that the (sharp) threshold is at p = 1/n. We consider a natural analogue of this question for higher-dimensional random complexes Xk(n, p), first studied by Cohen, Costa, Farber and Kappeler for k = 2. Improving previous results, we show that p = Θ(1/ √n) is the (coarse) threshold for containing a subdivision of any fixed complete 2-complex. For higher dimensions k &gt; 2, we get that p = O(n−1/k) is an upper bound for the threshold probability of containing a subdivision of a fixed k-dimensional complex.","lang":"eng"}],"volume":144,"department":[{"_id":"UlWa"}],"language":[{"iso":"eng"}],"quality_controlled":"1","scopus_import":"1","external_id":{"arxiv":["1404.2106"],"isi":["000369298400040"]},"publication":"Proceedings of the American Mathematical Society","publication_status":"published","article_processing_charge":"No","issue":"4","_id":"1523","isi":1},{"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","date_created":"2018-12-11T11:52:31Z","corr_author":"1","date_updated":"2025-06-04T12:06:27Z","month":"01","year":"2016","publisher":"Springer","oa":1,"doi":"10.1007/978-3-319-26916-0_10","page":"173 - 191","author":[{"full_name":"Beica, Andreea","first_name":"Andreea","last_name":"Beica"},{"first_name":"Calin C","full_name":"Guet, Calin C","last_name":"Guet","id":"47F8433E-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0001-6220-2052"},{"full_name":"Petrov, Tatjana","first_name":"Tatjana","id":"3D5811FC-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0002-9041-0905","last_name":"Petrov"}],"title":"Efficient reduction of kappa models by static inspection of the rule-set","oa_version":"Preprint","alternative_title":["LNCS"],"department":[{"_id":"CaGu"},{"_id":"ToHe"}],"volume":9271,"abstract":[{"lang":"eng","text":"When designing genetic circuits, the typical primitives used in major existing modelling formalisms are gene interaction graphs, where edges between genes denote either an activation or inhibition relation. However, when designing experiments, it is important to be precise about the low-level mechanistic details as to how each such relation is implemented. The rule-based modelling language Kappa allows to unambiguously specify mechanistic details such as DNA binding sites, dimerisation of transcription factors, or co-operative interactions. Such a detailed description comes with complexity and computationally costly executions. We propose a general method for automatically transforming a rule-based program, by eliminating intermediate species and adjusting the rate constants accordingly. To the best of our knowledge, we show the first automated reduction of rule-based models based on equilibrium approximations.\r\nOur algorithm is an adaptation of an existing algorithm, which was designed for reducing reaction-based programs; our version of the algorithm scans the rule-based Kappa model in search for those interaction patterns known to be amenable to equilibrium approximations (e.g. Michaelis-Menten scheme). Additional checks are then performed in order to verify if the reduction is meaningful in the context of the full model. The reduced model is efficiently obtained by static inspection over the rule-set. The tool is tested on a detailed rule-based model of a λ-phage switch, which lists 92 rules and 13 agents. The reduced model has 11 rules and 5 agents, and provides a dramatic reduction in simulation time of several orders of magnitude."}],"external_id":{"arxiv":["1501.00440"]},"scopus_import":"1","quality_controlled":"1","language":[{"iso":"eng"}],"article_processing_charge":"No","publication_status":"published","conference":{"location":"Madrid, Spain","name":"HSB: Hybrid Systems Biology","end_date":"2015-09-05","start_date":"2015-09-04"},"project":[{"call_identifier":"FP7","_id":"25681D80-B435-11E9-9278-68D0E5697425","grant_number":"291734","name":"International IST Postdoc Fellowship Programme"}],"_id":"1524","intvolume":"      9271","type":"conference","ec_funded":1,"main_file_link":[{"open_access":"1","url":"http://arxiv.org/abs/1501.00440"}],"arxiv":1,"status":"public","publist_id":"5649","date_published":"2016-01-10T00:00:00Z","day":"10","citation":{"ista":"Beica A, Guet CC, Petrov T. 2016. Efficient reduction of kappa models by static inspection of the rule-set. HSB: Hybrid Systems Biology, LNCS, vol. 9271, 173–191.","apa":"Beica, A., Guet, C. C., &#38; Petrov, T. (2016). Efficient reduction of kappa models by static inspection of the rule-set (Vol. 9271, pp. 173–191). Presented at the HSB: Hybrid Systems Biology, Madrid, Spain: Springer. <a href=\"https://doi.org/10.1007/978-3-319-26916-0_10\">https://doi.org/10.1007/978-3-319-26916-0_10</a>","chicago":"Beica, Andreea, Calin C Guet, and Tatjana Petrov. “Efficient Reduction of Kappa Models by Static Inspection of the Rule-Set,” 9271:173–91. Springer, 2016. <a href=\"https://doi.org/10.1007/978-3-319-26916-0_10\">https://doi.org/10.1007/978-3-319-26916-0_10</a>.","short":"A. Beica, C.C. Guet, T. Petrov, in:, Springer, 2016, pp. 173–191.","mla":"Beica, Andreea, et al. <i>Efficient Reduction of Kappa Models by Static Inspection of the Rule-Set</i>. Vol. 9271, Springer, 2016, pp. 173–91, doi:<a href=\"https://doi.org/10.1007/978-3-319-26916-0_10\">10.1007/978-3-319-26916-0_10</a>.","ama":"Beica A, Guet CC, Petrov T. Efficient reduction of kappa models by static inspection of the rule-set. In: Vol 9271. Springer; 2016:173-191. doi:<a href=\"https://doi.org/10.1007/978-3-319-26916-0_10\">10.1007/978-3-319-26916-0_10</a>","ieee":"A. Beica, C. C. Guet, and T. Petrov, “Efficient reduction of kappa models by static inspection of the rule-set,” presented at the HSB: Hybrid Systems Biology, Madrid, Spain, 2016, vol. 9271, pp. 173–191."},"acknowledgement":"This research was supported by the People Programme (Marie Curie Actions) of the European Union’s Seventh Framework Programme (FP7/2007-2013) under REA grant agreement no. 291734, and the SNSF Early Postdoc.Mobility Fellowship, the grant number P2EZP2_148797."},{"oa_version":"Preprint","title":"Using galaxy formation simulations to optimize LIGO follow-up observations","author":[{"last_name":"Antolini","full_name":"Antolini, Elisa","first_name":"Elisa"},{"last_name":"Caiazzo","id":"8ae5b6e7-2a03-11ee-914d-b58ed7a3b47d","orcid":"0000-0002-4770-5388","first_name":"Ilaria","full_name":"Caiazzo, Ilaria"},{"last_name":"Davé","full_name":"Davé, Romeel","first_name":"Romeel"},{"last_name":"Heyl","first_name":"Jeremy S.","full_name":"Heyl, Jeremy S."}],"page":"2212-2216","doi":"10.1093/mnras/stw3292","publisher":"Oxford University Press","oa":1,"year":"2016","article_type":"original","publication_identifier":{"issn":["0035-8711"],"eissn":["1365-2966"]},"month":"12","date_updated":"2024-04-08T07:05:23Z","keyword":["Space and Planetary Science","Astronomy and Astrophysics"],"date_created":"2024-03-26T10:41:04Z","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","citation":{"apa":"Antolini, E., Caiazzo, I., Davé, R., &#38; Heyl, J. S. (2016). Using galaxy formation simulations to optimize LIGO follow-up observations. <i>Monthly Notices of the Royal Astronomical Society</i>. Oxford University Press. <a href=\"https://doi.org/10.1093/mnras/stw3292\">https://doi.org/10.1093/mnras/stw3292</a>","ista":"Antolini E, Caiazzo I, Davé R, Heyl JS. 2016. Using galaxy formation simulations to optimize LIGO follow-up observations. Monthly Notices of the Royal Astronomical Society. 466(2), 2212–2216.","ieee":"E. Antolini, I. Caiazzo, R. Davé, and J. S. Heyl, “Using galaxy formation simulations to optimize LIGO follow-up observations,” <i>Monthly Notices of the Royal Astronomical Society</i>, vol. 466, no. 2. Oxford University Press, pp. 2212–2216, 2016.","ama":"Antolini E, Caiazzo I, Davé R, Heyl JS. Using galaxy formation simulations to optimize LIGO follow-up observations. <i>Monthly Notices of the Royal Astronomical Society</i>. 2016;466(2):2212-2216. doi:<a href=\"https://doi.org/10.1093/mnras/stw3292\">10.1093/mnras/stw3292</a>","mla":"Antolini, Elisa, et al. “Using Galaxy Formation Simulations to Optimize LIGO Follow-up Observations.” <i>Monthly Notices of the Royal Astronomical Society</i>, vol. 466, no. 2, Oxford University Press, 2016, pp. 2212–16, doi:<a href=\"https://doi.org/10.1093/mnras/stw3292\">10.1093/mnras/stw3292</a>.","short":"E. Antolini, I. Caiazzo, R. Davé, J.S. Heyl, Monthly Notices of the Royal Astronomical Society 466 (2016) 2212–2216.","chicago":"Antolini, Elisa, Ilaria Caiazzo, Romeel Davé, and Jeremy S. Heyl. “Using Galaxy Formation Simulations to Optimize LIGO Follow-up Observations.” <i>Monthly Notices of the Royal Astronomical Society</i>. Oxford University Press, 2016. <a href=\"https://doi.org/10.1093/mnras/stw3292\">https://doi.org/10.1093/mnras/stw3292</a>."},"day":"17","date_published":"2016-12-17T00:00:00Z","status":"public","arxiv":1,"main_file_link":[{"url":"https://doi.org/10.48550/arXiv.1612.04412","open_access":"1"}],"type":"journal_article","intvolume":"       466","_id":"15242","publication":"Monthly Notices of the Royal Astronomical Society","publication_status":"published","article_processing_charge":"No","issue":"2","language":[{"iso":"eng"}],"quality_controlled":"1","extern":"1","scopus_import":"1","external_id":{"arxiv":["1612.04412"]},"abstract":[{"lang":"eng","text":"The recent discovery of gravitational radiation from merging black holes poses a challenge of how to organize the electromagnetic follow-up of gravitational-wave events as well as observed bursts of neutrinos. We propose a technique to select the galaxies that are most likely to host the event given some assumptions of whether the particular event is associated with recent star formation, low-metallicity stars or simply proportional to the total stellar mass in the galaxy. We combine data from the 2-MASS Photometric Redshift Galaxy Catalogue with results from galaxy formation simulations to develop observing strategies that potentially reduce the area of sky to search by up to a factor of 2 relative to an unweighted search of galaxies, and a factor of 20 to a search over the entire LIGO localization region."}],"volume":466},{"conference":{"end_date":"2016-07-01","start_date":"2016-06-26","location":"Edinburgh, UK","name":"Astronomical Telescopes + Instrumentation"},"_id":"15244","article_processing_charge":"No","publication":"Space Telescopes and Instrumentation 2016: Ultraviolet to Gamma Ray","publication_status":"published","extern":"1","external_id":{"arxiv":["1309.6995"]},"scopus_import":"1","language":[{"iso":"eng"}],"quality_controlled":"1","abstract":[{"text":"XIPE, the X-ray Imaging Polarimetry Explorer, is a mission dedicated to X-ray Astronomy. At the time of writing XIPE is in a competitive phase A as fourth medium size mission of ESA (M4). It promises to reopen the polarimetry window in high energy Astrophysics after more than 4 decades thanks to a detector that efficiently exploits the photoelectric effect and to X-ray optics with large effective area. XIPE uniqueness is time-spectrally-spatially- resolved X-ray polarimetry as a breakthrough in high energy astrophysics and fundamental physics. Indeed the payload consists of three Gas Pixel Detectors at the focus of three X-ray optics with a total effective area larger than one XMM mirror but with a low weight. The payload is compatible with the fairing of the Vega launcher. XIPE is designed as an observatory for X-ray astronomers with 75 % of the time dedicated to a Guest Observer competitive program and it is organized as a consortium across Europe with main contributions from Italy, Germany, Spain, United Kingdom, Poland, Sweden.","lang":"eng"}],"volume":9905,"citation":{"ista":"Soffitta P et al. 2016. XIPE: The x-ray imaging polarimetry explorer. Space Telescopes and Instrumentation 2016: Ultraviolet to Gamma Ray. Astronomical Telescopes + Instrumentation vol. 9905, 990515.","apa":"Soffitta, P., Bellazzini, R., Bozzo, E., Burwitz, V., Castro Tirado, A., Costa, E., … Turriziani, S. (2016). XIPE: The x-ray imaging polarimetry explorer. In <i>Space Telescopes and Instrumentation 2016: Ultraviolet to Gamma Ray</i> (Vol. 9905). Edinburgh, UK: SPIE. <a href=\"https://doi.org/10.1117/12.2233046\">https://doi.org/10.1117/12.2233046</a>","chicago":"Soffitta, Paolo, Ronaldo Bellazzini, Enrico Bozzo, Vadim Burwitz, Alberto Castro Tirado, Enrico Costa, Thierry Courvoisier, et al. “XIPE: The x-Ray Imaging Polarimetry Explorer.” In <i>Space Telescopes and Instrumentation 2016: Ultraviolet to Gamma Ray</i>, Vol. 9905. SPIE, 2016. <a href=\"https://doi.org/10.1117/12.2233046\">https://doi.org/10.1117/12.2233046</a>.","short":"P. Soffitta, R. Bellazzini, E. Bozzo, V. Burwitz, A. Castro Tirado, E. Costa, T. Courvoisier, H. Feng, S. Gburek, R. Goosmann, V. Karas, G. Matt, F. Muleri, K. Nandra, M. Pearce, J. Poutanen, V. Reglero, M.D. Graziati, A. Santangelo, G. Tagliaferri, C. Tenzer, J. Vink, M. Weisskopf, S. Zane, I. Agudo, A. Antonelli, P. Attina, L. Baldini, A. Bykov, R. Carpentiero, E. Cavazzuti, E. Churazov, E. Del Monte, D. De Martino, I. Donnarumma, V. Doroshenko, Y. Evangelista, I. Ferreira, E. Gallo, N. Grosso, P. Kaaret, E. Kuulkers, J. Laranaga, L. Latronico, D.H. Lumb, J. Macian, J. Malzac, F. Marin, E. Massaro, M. Minuti, C. Mundell, J.U. Ness, T. Oosterbroek, S. Paltani, G. Pareschi, R. Perna, P.-O. Petrucci, H.B. Pinazo, M. Pinchera, J.P. Rodriguez, M. Roncadelli, A. Santovincenzo, S. Sazonov, C. Sgro, D. Spiga, J. Svoboda, C. Theobald, T. Theodorou, R. Turolla, E. Wilhelmi de Ona, B. Winter, A.M. Akbar, H. Allan, R. Aloisio, D. Altamirano, L. Amati, E. Amato, E. Angelakis, J. Arezu, J.-L. Atteia, M. Axelsson, M. Bachetti, L. Ballo, S. Balman, R. Bandiera, X. Barcons, S. Basso, A. Baykal, W. Becker, E. Behar, B. Beheshtipour, R. Belmont, E. Berger, F. Bernardini, S. Bianchi, G. Bisnovatyi-Kogan, P. Blasi, P. Blay, A. Bodaghee, M. Boer, M. Boettcher, S. Bogdanov, I. Bombaci, R. Bonino, J. Braga, W. Brandt, A. Brez, N. Bucciantini, L. Burderi, I. Caiazzo, R. Campana, S. Campana, F. Capitanio, M. Cappi, M. Cardillo, P. Casella, O. Catmabacak, B. Cenko, P. Cerda-Duran, C. Cerruti, S. Chaty, M. Chauvin, Y. Chen, J. Chenevez, M. Chernyakova, C.C.T. Cheung, D. Christodoulou, P. Connell, R. Corbet, F. Coti Zelati, S. Covino, W. Cui, G. Cusumano, A. D’Ai, F. D’Ammando, M. Dadina, Z. Dai, A. De Rosa, L. de Ruvo, N. Degenaar, M. Del Santo, L. Del Zanna, G. Dewangan, S. Di Cosimo, N. Di Lalla, G. Di Persio, T. Di Salvo, T. Dias, C. Done, M. Dovciak, G. Doyle, L. Ducci, R. Elsner, T. Enoto, J. Escada, P. Esposito, C. Eyles, S. Fabiani, M. Falanga, S. Falocco, Y. Fan, R. Fender, M. Feroci, C. Ferrigno, W. Forman, L. Foschini, C. Fragile, F. Fuerst, Y. Fujita, J.L. Gasent-Blesa, J. Gelfand, B. Gendre, G. Ghirlanda, G. Ghisellini, M. Giroletti, D. Goetz, E. Gogus, J.-L. Gomez, D. Gonzalez, R. Gonzalez-Riestra, E. Gotthelf, L. Gou, P. Grandi, V. Grinberg, F. Grise, C. Guidorzi, N. Gurlebeck, T. Guver, D. Haggard, M. Hardcastle, D. Hartmann, C. Haswell, A. Heger, M. Hernanz, J. Heyl, L. Ho, J. Hoormann, J. Horak, J. Huovelin, D. Huppenkothen, R. Iaria, C. Inam Sitki, A. Ingram, G. Israel, L. Izzo, M. Burgess, M. Jackson, L. Ji, J. Jiang, T. Johannsen, C. Jones, S. Jorstad, J.J.E. Kajava, M. Kalamkar, E. Kalemci, T. Kallman, A. Kamble, F. Kislat, M. Kiss, D. Klochkov, E. Koerding, M. Kolehmainen, K. Koljonen, S. Komossa, A. Kong, S. Korpela, M. Kowalinski, H. Krawczynski, I. Kreykenbohm, M. Kuss, D. Lai, M. Lan, J. Larsson, S. Laycock, D. Lazzati, D. Leahy, H. Li, J. Li, L. Li, T. Li, Z. Li, M. Linares, M. Lister, H. Liu, G. Lodato, A. Lohfink, F. Longo, G. Luna, A. Lutovinov, S. Mahmoodifar, J. Maia, V. Mainieri, C. Maitra, D. Maitra, A. Majczyna, S. Maldera, D. Malyshev, A. Manfreda, A. Manousakis, R. Manuel, R. Margutti, A. Marinucci, S. Markoff, A. Marscher, H. Marshall, F. Massaro, M. McLaughlin, G. Medina-Tanco, M. Mehdipour, M. Middleton, R. Mignani, P. Mimica, T. Mineo, B. Mingo, G. Miniutti, S.M. Mirac, G. Morlino, A.V. Motlagh, S. Motta, A. Mushtukov, S. Nagataki, F. Nardini, J. Nattila, G.J. Navarro, B. Negri, M. Negro, S. Nenonen, V. Neustroev, F. Nicastro, A. Norton, A. Nucita, P. O’Brien, S. O’Dell, S. Turriziani, in:, Space Telescopes and Instrumentation 2016: Ultraviolet to Gamma Ray, SPIE, 2016.","mla":"Soffitta, Paolo, et al. “XIPE: The x-Ray Imaging Polarimetry Explorer.” <i>Space Telescopes and Instrumentation 2016: Ultraviolet to Gamma Ray</i>, vol. 9905, 990515, SPIE, 2016, doi:<a href=\"https://doi.org/10.1117/12.2233046\">10.1117/12.2233046</a>.","ama":"Soffitta P, Bellazzini R, Bozzo E, et al. XIPE: The x-ray imaging polarimetry explorer. In: <i>Space Telescopes and Instrumentation 2016: Ultraviolet to Gamma Ray</i>. Vol 9905. SPIE; 2016. doi:<a href=\"https://doi.org/10.1117/12.2233046\">10.1117/12.2233046</a>","ieee":"P. Soffitta <i>et al.</i>, “XIPE: The x-ray imaging polarimetry explorer,” in <i>Space Telescopes and Instrumentation 2016: Ultraviolet to Gamma Ray</i>, Edinburgh, UK, 2016, vol. 9905."},"status":"public","arxiv":1,"day":"11","article_number":"990515","date_published":"2016-10-11T00:00:00Z","type":"conference","main_file_link":[{"url":"https://doi.org/10.48550/arXiv.1309.6995","open_access":"1"}],"intvolume":"      9905","publication_identifier":{"issn":["0168-9002"]},"year":"2016","month":"10","date_created":"2024-03-26T10:41:49Z","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","date_updated":"2024-04-08T07:06:39Z","title":"XIPE: The x-ray imaging polarimetry explorer","author":[{"last_name":"Soffitta","first_name":"Paolo","full_name":"Soffitta, Paolo"},{"first_name":"Ronaldo","full_name":"Bellazzini, Ronaldo","last_name":"Bellazzini"},{"last_name":"Bozzo","first_name":"Enrico","full_name":"Bozzo, Enrico"},{"last_name":"Burwitz","first_name":"Vadim","full_name":"Burwitz, Vadim"},{"last_name":"Castro Tirado","first_name":"Alberto","full_name":"Castro Tirado, Alberto"},{"full_name":"Costa, Enrico","first_name":"Enrico","last_name":"Costa"},{"first_name":"Thierry","full_name":"Courvoisier, Thierry","last_name":"Courvoisier"},{"last_name":"Feng","first_name":"Hua","full_name":"Feng, Hua"},{"last_name":"Gburek","first_name":"Szymon","full_name":"Gburek, Szymon"},{"last_name":"Goosmann","full_name":"Goosmann, Rene'","first_name":"Rene'"},{"last_name":"Karas","first_name":"Vladimir","full_name":"Karas, Vladimir"},{"last_name":"Matt","first_name":"Giorgio","full_name":"Matt, Giorgio"},{"last_name":"Muleri","first_name":"Fabio","full_name":"Muleri, Fabio"},{"full_name":"Nandra, Kirpal","first_name":"Kirpal","last_name":"Nandra"},{"last_name":"Pearce","first_name":"Mark","full_name":"Pearce, Mark"},{"first_name":"Juri","full_name":"Poutanen, Juri","last_name":"Poutanen"},{"last_name":"Reglero","full_name":"Reglero, Victor","first_name":"Victor"},{"last_name":"Graziati","first_name":"Maria Dolores","full_name":"Graziati, Maria Dolores"},{"last_name":"Santangelo","full_name":"Santangelo, Andrea","first_name":"Andrea"},{"full_name":"Tagliaferri, Gianpiero","first_name":"Gianpiero","last_name":"Tagliaferri"},{"full_name":"Tenzer, Christopher","first_name":"Christopher","last_name":"Tenzer"},{"last_name":"Vink","full_name":"Vink, Jacco","first_name":"Jacco"},{"last_name":"Weisskopf","first_name":"Martin","full_name":"Weisskopf, Martin"},{"last_name":"Zane","first_name":"Silvia","full_name":"Zane, Silvia"},{"last_name":"Agudo","full_name":"Agudo, I.","first_name":"I."},{"first_name":"A.","full_name":"Antonelli, A.","last_name":"Antonelli"},{"last_name":"Attina","first_name":"P.","full_name":"Attina, P."},{"full_name":"Baldini, L.","first_name":"L.","last_name":"Baldini"},{"first_name":"A.","full_name":"Bykov, A.","last_name":"Bykov"},{"last_name":"Carpentiero","full_name":"Carpentiero, R.","first_name":"R."},{"last_name":"Cavazzuti","full_name":"Cavazzuti, E.","first_name":"E."},{"first_name":"E.","full_name":"Churazov, E.","last_name":"Churazov"},{"last_name":"Del Monte","full_name":"Del Monte, E.","first_name":"E."},{"full_name":"De Martino, D.","first_name":"D.","last_name":"De Martino"},{"first_name":"I.","full_name":"Donnarumma, I.","last_name":"Donnarumma"},{"last_name":"Doroshenko","first_name":"V.","full_name":"Doroshenko, V."},{"full_name":"Evangelista, Y.","first_name":"Y.","last_name":"Evangelista"},{"last_name":"Ferreira","full_name":"Ferreira, I.","first_name":"I."},{"first_name":"E.","full_name":"Gallo, E.","last_name":"Gallo"},{"full_name":"Grosso, N.","first_name":"N.","last_name":"Grosso"},{"last_name":"Kaaret","full_name":"Kaaret, P.","first_name":"P."},{"last_name":"Kuulkers","first_name":"E.","full_name":"Kuulkers, E."},{"last_name":"Laranaga","full_name":"Laranaga, J.","first_name":"J."},{"last_name":"Latronico","first_name":"L.","full_name":"Latronico, L."},{"first_name":"D. 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Zhang <i>et al.</i>, “eXTP: Enhanced X-ray timing and polarization mission,” in <i>Proceedings of the SPIE</i>, 2016, vol. 9905.","ama":"Zhang SN, Feroci M, Santangelo A, et al. eXTP: Enhanced X-ray timing and polarization mission. In: <i>Proceedings of the SPIE</i>. Vol 9905. SPIE; 2016. doi:<a href=\"https://doi.org/10.1117/12.2232034\">10.1117/12.2232034</a>","mla":"Zhang, S. N., et al. “EXTP: Enhanced X-Ray Timing and Polarization Mission.” <i>Proceedings of the SPIE</i>, vol. 9905, 99051Q, SPIE, 2016, doi:<a href=\"https://doi.org/10.1117/12.2232034\">10.1117/12.2232034</a>.","short":"S.N. Zhang, M. Feroci, A. Santangelo, Y.W. Dong, H. Feng, F.J. Lu, K. Nandra, Z.S. Wang, S. Zhang, E. Bozzo, S. Brandt, A. De Rosa, L.J. Gou, M. Hernanz, M. van der Klis, X.D. Li, Y. Liu, P. Orleanski, G. Pareschi, M. Pohl, J. Poutanen, J.L. Qu, S. Schanne, L. Stella, P. Uttley, A. Watts, R.X. Xu, W.F. Yu, J.J.M. in ’t Zand, S. Zane, L. Alvarez, L. Amati, L. Baldini, C. Bambi, S. Basso, S. Bhattacharyya, R. Bellazzini, T. Belloni, P. Bellutti, S. Bianchi, A. Brez, M. Bursa, V. Burwitz, C. Budtz-Jørgensen, I. Caiazzo, R. Campana, X.L. Cao, P. Casella, C.Y. Chen, L. Chen, T. Chen, Y. Chen, Y. Chen, Y.P. Chen, M. Civitani, F. Coti Zelati, W. Cui, W.W. Cui, Z.G. Dai, E. Del Monte, D. de Martino, S. Di Cosimo, S. Diebold, M. Dovciak, I. Donnarumma, V. Doroshenko, P. Esposito, Y. Evangelista, Y. Favre, P. Friedrich, F. Fuschino, J.L. Galvez, Z.L. Gao, M.Y. Ge, O. Gevin, D. Goetz, D.W. Han, J. Heyl, J. Horak, W. Hu, F. Huang, Q.S. Huang, R. Hudec, D. Huppenkothen, G.L. Israel, A. Ingram, V. Karas, D. Karelin, P.A. Jenke, L. Ji, S. Korpela, D. Kunneriath, C. Labanti, G. Li, X. Li, Z.S. Li, E.W. Liang, O. Limousin, L. Lin, Z.X. Ling, H.B. Liu, H.W. Liu, Z. Liu, B. Lu, N. Lund, D. Lai, B. Luo, T. Luo, B. Ma, S. Mahmoodifar, M. Marisaldi, A. Martindale, N. Meidinger, Y.P. Men, M. Michalska, R. Mignani, M. Minuti, S. Motta, F. Muleri, J. Neilsen, M. Orlandini, A.T. Pan, A. Patruno, E. Perinati, A. Picciotto, C. Piemonte, M. Pinchera, A. Rachevski, M. Rapisarda, N. Rea, E.M.R. Rossi, A. Rubini, G. Sala, X.W. Shu, C. Sgro, Z.X. Shen, P. Soffitta, L.M. Song, G. Spandre, G. Stratta, T.E. Strohmayer, L. Sun, J. Svoboda, G. Tagliaferri, C. Tenzer, T. Hong, R. Taverna, G. Torok, R. Turolla, S. Vacchi, J. Wang, D. Walton, K. Wang, J.F. Wang, R.J. Wang, Y.F. Wang, S.S. Weng, J. Wilms, B. Winter, X. Wu, X.F. Wu, S.L. Xiong, Y.P. Xu, Y.Q. Xue, Z. Yan, S. Yang, X. Yang, Y.J. Yang, F. Yuan, W.M. Yuan, Y.F. Yuan, G. Zampa, N. Zampa, A. Zdziarski, C. Zhang, C.L. Zhang, L. Zhang, X. Zhang, Z. Zhang, W.D. Zhang, S.J. Zheng, P. Zhou, X.L. Zhou, in:, Proceedings of the SPIE, SPIE, 2016.","chicago":"Zhang, S. N., M. Feroci, A. Santangelo, Y. W. Dong, H. Feng, F. J. Lu, K. Nandra, et al. “EXTP: Enhanced X-Ray Timing and Polarization Mission.” In <i>Proceedings of the SPIE</i>, Vol. 9905. SPIE, 2016. <a href=\"https://doi.org/10.1117/12.2232034\">https://doi.org/10.1117/12.2232034</a>.","apa":"Zhang, S. N., Feroci, M., Santangelo, A., Dong, Y. W., Feng, H., Lu, F. J., … Zhou, X. L. (2016). eXTP: Enhanced X-ray timing and polarization mission. In <i>Proceedings of the SPIE</i> (Vol. 9905). SPIE. <a href=\"https://doi.org/10.1117/12.2232034\">https://doi.org/10.1117/12.2232034</a>","ista":"Zhang SN et al. 2016. eXTP: Enhanced X-ray timing and polarization mission. Proceedings of the SPIE. vol. 9905, 99051Q."},"intvolume":"      9905","type":"conference","main_file_link":[{"url":"https://doi.org/10.48550/arXiv.1607.08823","open_access":"1"}],"article_processing_charge":"No","publication":"Proceedings of the SPIE","publication_status":"published","_id":"15245","abstract":[{"lang":"eng","text":"eXTP is a science mission designed to study the state of matter under extreme conditions of density, gravity and magnetism. Primary goals are the determination of the equation of state of matter at supra-nuclear density, the measurement of QED effects in highly magnetized star, and the study of accretion in the strong-field regime of gravity. Primary targets include isolated and binary neutron stars, strong magnetic field systems like magnetars, and stellar-mass and supermassive black holes. The mission carries a unique and unprecedented suite of state-of-the-art scientific instruments enabling for the first time ever the simultaneous spectral-timing-polarimetry studies of cosmic sources in the energy range from 0.5-30 keV (and beyond). Key elements of the payload are: the Spectroscopic Focusing Array (SFA) - a set of 11 X-ray optics for a total effective area of ∼0.9 m2 and 0.6 m2 at 2 keV and 6 keV respectively, equipped with Silicon Drift Detectors offering <180 eV spectral resolution; the Large Area Detector (LAD) - a deployable set of 640 Silicon Drift Detectors, for a total effective area of ∼3.4 m2, between 6 and 10 keV, and spectral resolution better than 250 eV; the Polarimetry Focusing Array (PFA) - a set of 2 X-ray telescope, for a total effective area of 250 cm2 at 2 keV, equipped with imaging gas pixel photoelectric polarimeters; the Wide Field Monitor (WFM) - a set of 3 coded mask wide field units, equipped with position-sensitive Silicon Drift Detectors, each covering a 90 degrees x 90 degrees field of view. The eXTP international consortium includes major institutions of the Chinese Academy of Sciences and Universities in China, as well as major institutions in several European countries and the United States. The predecessor of eXTP, the XTP mission concept, has been selected and funded as one of the so-called background missions in the Strategic Priority Space Science Program of the Chinese Academy of Sciences since 2011. The strong European participation has significantly enhanced the scientific capabilities of eXTP. The planned launch date of the mission is earlier than 2025."}],"volume":9905,"extern":"1","external_id":{"arxiv":["1607.08823"]},"scopus_import":"1","language":[{"iso":"eng"}],"quality_controlled":"1","doi":"10.1117/12.2232034","title":"eXTP: Enhanced X-ray timing and polarization mission","author":[{"first_name":"S. N.","full_name":"Zhang, S. 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L.","last_name":"Zhou"}],"oa_version":"Preprint","publisher":"SPIE","oa":1,"month":"07","publication_identifier":{"issn":["0277-786X"]},"year":"2016","date_created":"2024-03-26T10:42:21Z","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","date_updated":"2024-03-27T08:23:11Z"},{"intvolume":"      9583","type":"conference","ec_funded":1,"main_file_link":[{"open_access":"1","url":"http://arxiv.org/abs/1506.01233"}],"arxiv":1,"status":"public","publist_id":"5647","date_published":"2016-01-01T00:00:00Z","day":"01","acknowledgement":"This research was supported in part by the European Research Council (ERC) under grant 267989 (QUAREM), by the Austrian Science Fund (FWF) under grants S11402-N23 (RiSE) and Z211-N23 (Wittgenstein Award), and by the National Science Centre (NCN), Poland under grant 2014/15/D/ST6/04543.","citation":{"ama":"Henzinger TA, Otop J, Samanta R. Lipschitz robustness of timed I/O systems. In: Vol 9583. Springer; 2016:250-267. doi:<a href=\"https://doi.org/10.1007/978-3-662-49122-5_12\">10.1007/978-3-662-49122-5_12</a>","ieee":"T. A. Henzinger, J. Otop, and R. Samanta, “Lipschitz robustness of timed I/O systems,” presented at the VMCAI: Verification, Model Checking and Abstract Interpretation, St. Petersburg, FL, USA, 2016, vol. 9583, pp. 250–267.","chicago":"Henzinger, Thomas A, Jan Otop, and Roopsha Samanta. “Lipschitz Robustness of Timed I/O Systems,” 9583:250–67. Springer, 2016. <a href=\"https://doi.org/10.1007/978-3-662-49122-5_12\">https://doi.org/10.1007/978-3-662-49122-5_12</a>.","short":"T.A. Henzinger, J. Otop, R. Samanta, in:, Springer, 2016, pp. 250–267.","mla":"Henzinger, Thomas A., et al. <i>Lipschitz Robustness of Timed I/O Systems</i>. Vol. 9583, Springer, 2016, pp. 250–67, doi:<a href=\"https://doi.org/10.1007/978-3-662-49122-5_12\">10.1007/978-3-662-49122-5_12</a>.","apa":"Henzinger, T. A., Otop, J., &#38; Samanta, R. (2016). Lipschitz robustness of timed I/O systems (Vol. 9583, pp. 250–267). Presented at the VMCAI: Verification, Model Checking and Abstract Interpretation, St. Petersburg, FL, USA: Springer. <a href=\"https://doi.org/10.1007/978-3-662-49122-5_12\">https://doi.org/10.1007/978-3-662-49122-5_12</a>","ista":"Henzinger TA, Otop J, Samanta R. 2016. Lipschitz robustness of timed I/O systems. VMCAI: Verification, Model Checking and Abstract Interpretation, LNCS, vol. 9583, 250–267."},"department":[{"_id":"ToHe"}],"volume":9583,"abstract":[{"text":"We present the first study of robustness of systems that are both timed as well as reactive (I/O). We study the behavior of such timed I/O systems in the presence of uncertain inputs and formalize their robustness using the analytic notion of Lipschitz continuity: a timed I/O system is K-(Lipschitz) robust if the perturbation in its output is at most K times the perturbation in its input. We quantify input and output perturbation using similarity functions over timed words such as the timed version of the Manhattan distance and the Skorokhod distance. We consider two models of timed I/O systems — timed transducers and asynchronous sequential circuits. We show that K-robustness of timed transducers can be decided in polynomial space under certain conditions. For asynchronous sequential circuits, we reduce K-robustness w.r.t. timed Manhattan distances to K-robustness of discrete letter-to-letter transducers and show PSpace-completeness of the problem.","lang":"eng"}],"external_id":{"isi":["000375148800012"],"arxiv":["1506.01233"]},"scopus_import":"1","quality_controlled":"1","language":[{"iso":"eng"}],"article_processing_charge":"No","publication_status":"published","isi":1,"conference":{"name":"VMCAI: Verification, Model Checking and Abstract Interpretation","location":"St. Petersburg, FL, USA","end_date":"2016-01-19","start_date":"2016-01-17"},"project":[{"call_identifier":"FP7","name":"Quantitative Reactive Modeling","grant_number":"267989","_id":"25EE3708-B435-11E9-9278-68D0E5697425"},{"grant_number":"Z211","_id":"25F42A32-B435-11E9-9278-68D0E5697425","name":"Formal methods for the design and analysis of complex systems","call_identifier":"FWF"},{"name":"Rigorous Systems Engineering","_id":"25832EC2-B435-11E9-9278-68D0E5697425","grant_number":"S 11407_N23","call_identifier":"FWF"}],"_id":"1526","publisher":"Springer","oa":1,"doi":"10.1007/978-3-662-49122-5_12","page":"250 - 267","author":[{"last_name":"Henzinger","id":"40876CD8-F248-11E8-B48F-1D18A9856A87","orcid":"0000−0002−2985−7724","first_name":"Thomas A","full_name":"Henzinger, Thomas A"},{"first_name":"Jan","full_name":"Otop, Jan","last_name":"Otop","id":"2FC5DA74-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Roopsha","full_name":"Samanta, Roopsha","last_name":"Samanta","id":"3D2AAC08-F248-11E8-B48F-1D18A9856A87"}],"title":"Lipschitz robustness of timed I/O systems","oa_version":"Preprint","alternative_title":["LNCS"],"user_id":"317138e5-6ab7-11ef-aa6d-ffef3953e345","date_created":"2018-12-11T11:52:32Z","corr_author":"1","date_updated":"2025-09-18T11:06:25Z","month":"01","year":"2016"},{"doi":"10.1016/j.artint.2016.01.007","page":"26 - 48","author":[{"first_name":"Krishnendu","full_name":"Chatterjee, Krishnendu","last_name":"Chatterjee","orcid":"0000-0002-4561-241X","id":"2E5DCA20-F248-11E8-B48F-1D18A9856A87"},{"id":"3624234E-F248-11E8-B48F-1D18A9856A87","last_name":"Chmelik","full_name":"Chmelik, Martin","first_name":"Martin"},{"last_name":"Gupta","first_name":"Raghav","full_name":"Gupta, Raghav"},{"last_name":"Kanodia","full_name":"Kanodia, Ayush","first_name":"Ayush"}],"title":"Optimal cost almost-sure reachability in POMDPs","oa_version":"Preprint","oa":1,"publisher":"Elsevier","month":"05","year":"2016","user_id":"317138e5-6ab7-11ef-aa6d-ffef3953e345","date_created":"2018-12-11T11:52:33Z","corr_author":"1","date_updated":"2025-09-18T11:05:09Z","arxiv":1,"status":"public","date_published":"2016-05-01T00:00:00Z","publist_id":"5642","day":"01","citation":{"ama":"Chatterjee K, Chmelik M, Gupta R, Kanodia A. Optimal cost almost-sure reachability in POMDPs. <i>Artificial Intelligence</i>. 2016;234:26-48. doi:<a href=\"https://doi.org/10.1016/j.artint.2016.01.007\">10.1016/j.artint.2016.01.007</a>","ieee":"K. Chatterjee, M. Chmelik, R. Gupta, and A. Kanodia, “Optimal cost almost-sure reachability in POMDPs,” <i>Artificial Intelligence</i>, vol. 234. Elsevier, pp. 26–48, 2016.","chicago":"Chatterjee, Krishnendu, Martin Chmelik, Raghav Gupta, and Ayush Kanodia. “Optimal Cost Almost-Sure Reachability in POMDPs.” <i>Artificial Intelligence</i>. Elsevier, 2016. <a href=\"https://doi.org/10.1016/j.artint.2016.01.007\">https://doi.org/10.1016/j.artint.2016.01.007</a>.","short":"K. Chatterjee, M. Chmelik, R. Gupta, A. Kanodia, Artificial Intelligence 234 (2016) 26–48.","mla":"Chatterjee, Krishnendu, et al. “Optimal Cost Almost-Sure Reachability in POMDPs.” <i>Artificial Intelligence</i>, vol. 234, Elsevier, 2016, pp. 26–48, doi:<a href=\"https://doi.org/10.1016/j.artint.2016.01.007\">10.1016/j.artint.2016.01.007</a>.","apa":"Chatterjee, K., Chmelik, M., Gupta, R., &#38; Kanodia, A. (2016). Optimal cost almost-sure reachability in POMDPs. <i>Artificial Intelligence</i>. Elsevier. <a href=\"https://doi.org/10.1016/j.artint.2016.01.007\">https://doi.org/10.1016/j.artint.2016.01.007</a>","ista":"Chatterjee K, Chmelik M, Gupta R, Kanodia A. 2016. Optimal cost almost-sure reachability in POMDPs. Artificial Intelligence. 234, 26–48."},"acknowledgement":"We thank Blai Bonet for helping us with RTDP-Bel. The research was partly supported by Austrian Science Fund (FWF) Grant No P23499-N23, FWF NFN Grant No S11407-N23 (RiSE), ERC Start grant (279307: Graph Games), and Microsoft faculty fellows award.","intvolume":"       234","type":"journal_article","ec_funded":1,"main_file_link":[{"open_access":"1","url":"http://arxiv.org/abs/1411.3880"}],"article_processing_charge":"No","publication_status":"published","publication":"Artificial Intelligence","isi":1,"project":[{"name":"Modern Graph Algorithmic Techniques in Formal Verification","_id":"2584A770-B435-11E9-9278-68D0E5697425","grant_number":"P 23499-N23","call_identifier":"FWF"},{"call_identifier":"FWF","name":"Rigorous Systems Engineering","_id":"25832EC2-B435-11E9-9278-68D0E5697425","grant_number":"S 11407_N23"},{"grant_number":"279307","_id":"2581B60A-B435-11E9-9278-68D0E5697425","name":"Quantitative Graph Games: Theory and Applications","call_identifier":"FP7"}],"related_material":{"record":[{"status":"public","relation":"earlier_version","id":"5425"},{"id":"1820","status":"public","relation":"earlier_version"}]},"_id":"1529","department":[{"_id":"KrCh"}],"volume":234,"abstract":[{"text":"We consider partially observable Markov decision processes (POMDPs) with a set of target states and an integer cost associated with every transition. The optimization objective we study asks to minimize the expected total cost of reaching a state in the target set, while ensuring that the target set is reached almost surely (with probability 1). We show that for integer costs approximating the optimal cost is undecidable. For positive costs, our results are as follows: (i) we establish matching lower and upper bounds for the optimal cost, both double exponential in the POMDP state space size; (ii) we show that the problem of approximating the optimal cost is decidable and present approximation algorithms developing on the existing algorithms for POMDPs with finite-horizon objectives. While the worst-case running time of our algorithm is double exponential, we also present efficient stopping criteria for the algorithm and show experimentally that it performs well in many examples of interest.","lang":"eng"}],"scopus_import":"1","external_id":{"isi":["000372683700002"],"arxiv":["1411.3880"]},"quality_controlled":"1","language":[{"iso":"eng"}]}]