Photonics (Mar 2024)

Broadband High-Precision Faraday Rotation Spectroscopy with Uniaxial Single Crystal CeF<sub>3</sub> Modulator

  • John H. Lacy,
  • Gabriel E. Patenotte,
  • Abby C. Kinney,
  • Protik K. Majumder

DOI
https://doi.org/10.3390/photonics11040304
Journal volume & issue
Vol. 11, no. 4
p. 304

Abstract

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We present a low-noise (rad/Hz) broadband Faraday Rotation Spectroscopy method which is feasible for near-ultraviolet through near-infrared wavelengths. We demonstrate this in the context of a high-precision spectroscopy experiment using a heated Pb vapor cell and two different lasers, one in the UV (368 nm) and a second in the IR (1279 nm). A key element of the experimental technique is the use of a uniaxial single crystal CeF3 Faraday modulator with excellent transmission and optical rotation properties across the aforementioned wavelength range. Polarimeter performance is assessed as a function of crystal orientation and alignment, AC modulation amplitude, laser power, and laser wavelength. Crystal-induced distortion of the (6p2)3P0→(6p2)3P1 (1279 nm) and (6p2)3P1→(6p7s)3P0 (368 nm) spectral lines due to misalignment-induced birefringence is discussed and modeled using the Jones calculus.

Keywords