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Enhancing phase sensitivity in a Mach-Zehnder interferometer with various detection schemes using SU(1,1) coherent states

Nour-Eddine Abouelkhir, A. Slaoui, El Hassan Saidi, R. Ahl Laamara, Hanane El Hadfi

2024Journal of the Optical Society of America B12 citationsDOI

Abstract

Improving interferometric phase sensitivity is crucial for high-precision measurements in rapidly developing quantum technologies. The Mach–Zehnder interferometer (MZI) is a versatile tool for analyzing this phenomenon. By splitting and recombining a light beam using beam splitters, the MZI allows for precise phase sensitivity analysis using tools like the quantum Cramér–Rao bound (QCRB) and the quantum Fisher information (QFI). This paper analyzes the phase sensitivity of an MZI in various scenarios using different detection schemes and input states. We compare the single- and two-parameter quantum estimation and their associated QCRB for three phase-shift situations: in both arms; only in the upper arm (asymmetric); and in both arms symmetrically. We then investigate the phase sensitivity under three detection schemes: intensity difference; single-mode intensity; and balanced homodyne. Additionally, we explore the use of Perelomov and Barut–Girardello coherent states, two types of SU(1,1) coherent states, in all scenarios. Notably, we demonstrate that, under optimal conditions, all detection schemes can achieve the QCRB by utilizing SU(1,1) coherent states as input states.

Topics & Concepts

InterferometryMach–Zehnder interferometerSensitivity (control systems)PhysicsPhase (matter)OpticsQuantum mechanicsElectronic engineeringEngineeringPhotonic and Optical DevicesQuantum optics and atomic interactionsOptical Network Technologies
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