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Supersensitive phase estimation by thermal light in a Kerr-nonlinear interferometric setup

arXiv
Authors: Nilakantha Meher, Eilon Poem, Tomáš Opatrný, Ofer Firstenberg, Gershon Kurizki

Year

2023

Paper ID

55490

Status

Preprint

Abstract Read

~2 min

Abstract Words

174

Citations

N/A

Abstract

Estimation of the phase delay between interferometer arms is the core of transmission phase microscopy. Such phase estimation may exhibit an error below the standard quantum (shot-noise) limit, if the input is an entangled two-mode state, e.g., a N00N state. We show, by contrast, that such supersensitive phase estimation (SSPE) is achievable by incoherent, e.g., thermal, light that is injected into a Mach-Zehnder interferometer via a Kerr-nonlinear two-mode coupler. Phase error is shown to be reduced below 1/bar{n}, bar{n} being the mean photon number, by thermal input in such interferometric setups, even for small nonlinear phase-shifts per photon pair or for significant photon loss. Remarkably, the phase accuracy achievable in such setups by thermal input surpasses that of coherent light with the same bar{n}. Available mode couplers with giant Kerr nonlinearity that stems either from dipole-dipole interactions of Rydberg polaritons in a cold atomic gas, or from cavity-enhanced dispersive atom-field interactions, may exploit such effects to substantially advance interferometric phase microscopy using incoherent, faint light sources.

Why This Paper Matters

  • It adds a 2023 reference point for readers tracking recent quantum research.
  • Estimation of the phase delay between interferometer arms is the core of transmission phase microscopy.

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