From Random Telegraph to Gaussian Stochastic Noises: Decoherence and Spectral Diffusion in a Semiconductor Quantum Dot | Zendy

Alice Berthelot | Zendy; Christophe Voisin | Zendy; C. Delalande | Zendy; Ph. Roussignol | Zendy; R. Ferreira | Zendy; G. Cassabois | Zendy

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From Random Telegraph to Gaussian Stochastic Noises: Decoherence and Spectral Diffusion in a Semiconductor Quantum Dot

Author(s) -

Alice Berthelot,

Christophe Voisin,

C. Delalande,

Ph. Roussignol,

R. Ferreira,

G. Cassabois

Publication year - 2010

Publication title -

advances in mathematical physics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.283

H-Index - 23

eISSN - 1687-9139

pISSN - 1687-9120

DOI - 10.1155/2010/494738

Subject(s) - quantum decoherence , gaussian , quantum dot , diffusion , statistical physics , physics , quantum mechanics , semiconductor , quantum

We present a general theoretical description of the extrinsic dephasing mechanism of spectral diffusion that dominates the decoherence dynamics in semiconductor quantum dots at low temperature. We discuss the limits of randomtelegraph and Gaussian stochastic noises and show that the combination of both approaches in the framework of the pre-Gaussian noise theory allows a quantitative interpretation of high-resolution experiments in single semiconductor quantum dots.We emphasize the generality and the versatility of our model where the inclusion of asymmetric jump processes appears as an essential extension for the understanding of semiconductor quantum dot physics

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