Rate of decoherence for an electron weakly coupled to a phonon gas
Adami R, Erdös L. 2008. Rate of decoherence for an electron weakly coupled to a phonon gas. Journal of Statistical Physics. 132(2), 301–328.
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Journal Article
| Published
Author
Adami, Riccardo;
Erdös, LászlóISTA 
Abstract
We study the dynamics of an electron weakly coupled to a phonon gas. The initial state of the electron is the superposition of two spatially localized distant bumps moving towards each other, and the phonons are in a thermal state. We investigate the dynamics of the system in the kinetic regime and show that the time evolution makes the non-diagonal terms of the density matrix of the electron decay, destroying the interference between the two bumps. We show that such a damping effect is exponential in time, and the related decay rate is proportional to the total scattering cross section of the electron-phonon interaction.
Publishing Year
Date Published
2008-07-01
Journal Title
Journal of Statistical Physics
Volume
132
Issue
2
Page
301 - 328
IST-REx-ID
Cite this
Adami R, Erdös L. Rate of decoherence for an electron weakly coupled to a phonon gas. Journal of Statistical Physics. 2008;132(2):301-328. doi:10.1007/s10955-008-9561-8
Adami, R., & Erdös, L. (2008). Rate of decoherence for an electron weakly coupled to a phonon gas. Journal of Statistical Physics. Springer. https://doi.org/10.1007/s10955-008-9561-8
Adami, Riccardo, and László Erdös. “Rate of Decoherence for an Electron Weakly Coupled to a Phonon Gas.” Journal of Statistical Physics. Springer, 2008. https://doi.org/10.1007/s10955-008-9561-8.
R. Adami and L. Erdös, “Rate of decoherence for an electron weakly coupled to a phonon gas,” Journal of Statistical Physics, vol. 132, no. 2. Springer, pp. 301–328, 2008.
Adami R, Erdös L. 2008. Rate of decoherence for an electron weakly coupled to a phonon gas. Journal of Statistical Physics. 132(2), 301–328.
Adami, Riccardo, and László Erdös. “Rate of Decoherence for an Electron Weakly Coupled to a Phonon Gas.” Journal of Statistical Physics, vol. 132, no. 2, Springer, 2008, pp. 301–28, doi:10.1007/s10955-008-9561-8.
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