2017
DOI: 10.1080/09500340.2017.1363919
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Unraveling mirror properties in time-delayed quantum feedback scenarios

Abstract: We derive in the Heisenberg picture a widely used phenomenological coupling element to treat feedback effects in quantum optical platforms. Our derivation is based on a microscopic Hamiltonian, which describes the mirror-emitter dynamics based on a dielectric, a mediating fully quantized electromagnetic field, and a single two-level system in front of the dielectric. The dielectric is modeled as a a system of identical two-state atoms. The Heisenberg equation yields a system of describing differential operator… Show more

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Cited by 11 publications
(16 citation statements)
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“…The other method involves solving the delayed differential equation (19) instead of (16) and (17), thus directly incorporating the influence of the discrete environment. In FIG.…”
Section: Appendix B: Comparison Between Dirac Comb and Wave Number Summentioning
confidence: 99%
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“…The other method involves solving the delayed differential equation (19) instead of (16) and (17), thus directly incorporating the influence of the discrete environment. In FIG.…”
Section: Appendix B: Comparison Between Dirac Comb and Wave Number Summentioning
confidence: 99%
“…A fundamental example of this is a two-level system in front of a mirror or, in other words, the half-cavity setup. In this case, the presence of the mirror imposes a coherent time-delayed feedback for the atom and thus alters the quantum statistics and spontaneous emission spectrum of the system [11][12][13][14][15][16][17][18][19]. Signatures of non-Markovian behaviour for this setup were also demonstrated experimentally [20][21][22].…”
Section: Introductionmentioning
confidence: 99%
“…The goal of the modification of the LB-reservoir dynamics, g k : g 0 → g 0 sin(kL) [36,[71][72][73]80], is to restore/stabilize as much of the initial coherence for as long as possible. As there is no direct driving considered for the TLS, we haveP…”
Section: B Tle-phonon Interactionmentioning
confidence: 99%
“…This coherent feedback [86], originally introduced as an all-optical feedback [87] for quantum systems, has been proven an efficient way to recover lost quantum information from a reservoir with infinite degrees of freedom. Besides introducing a distant mirror, as just described [36], it can also be considered as a special case of cascaded quantum systems, as illustrated in Fig. 1(d) and described in [88] For optical excitations, the effect of feedback first manifests itself as a reduction in the effective cavity linewidth.…”
Section: Example (Ii): Lb Exposed To Non-markovian Quantum Feedbackmentioning
confidence: 99%
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