中文

Basis- and Channel-Selective Quantum Photodetection

量子物理 2026-05-19 v1

摘要

Photodetection converts optical quantum states into measurement events, but the usual electric-field response model becomes restrictive when the detector response is shaped by cavity, superconducting, or metamaterial engineering. We develop a generalized quantum photodetection framework in which electric and magnetic field amplitudes contribute coherently to the detection operator, and analyze it in a far-field two-source geometry, a two-mode single-photon setting, and a lossy resonant detector model. The far-field reference case exhibits complete detector-amplitude cancellation, absent in the electric-only Glauber response, while the single-photon model shows that the detector continuously rotates the effective measurement basis and controls the first-order visibility via an exact closed-form law. In the resonant realization, a monitored radiative output channel can be dark while the detector remains internally excited and absorptive, with unit absorption of the matched input mode at critical coupling. These results identify basis-selective readout and channel-selective absorption as experimentally relevant signatures of engineered electric-magnetic photodetection.

关键词

引用

@article{arxiv.2605.16886,
  title  = {Basis- and Channel-Selective Quantum Photodetection},
  author = {Mohamed Hatifi and Brian Stout},
  journal= {arXiv preprint arXiv:2605.16886},
  year   = {2026}
}