Towards Quantum Noise Squeezing for 2-Micron Light with Tellurite and Chalcogenide Fibers with Large Kerr Nonlinearity
Sorokin AA, Leuchs G, Corney JF, Kalinin NA, Anashkina EA, Andrianov A (2022)
Publication Type: Journal article
Publication year: 2022
Journal
Book Volume: 10
Article Number: 3477
Journal Issue: 19
DOI: 10.3390/math10193477
Abstract
Squeezed light—nonclassical multiphoton states with fluctuations in one of the quadrature field components below the vacuum level—has found applications in quantum light spectroscopy, quantum telecommunications, quantum computing, precision quantum metrology, detecting gravitational waves, and biological measurements. At present, quantum noise squeezing with optical fiber systems operating in the range near 1.5 μm has been mastered relatively well, but there are no fiber sources of nonclassical squeezed light beyond this range. Silica fibers are not suitable for strong noise suppression for 2 µm continuous-wave (CW) light since their losses dramatically deteriorate the squeezed state of required lengths longer than 100 m. We propose the generation multiphoton states of 2-micron 10-W class CW light with squeezed quantum fluctuations stronger than −15 dB in chalcogenide and tellurite soft glass fibers with large Kerr nonlinearities. Using a realistic theoretical model, we numerically study squeezing for 2-micron light in step-index soft glass fibers by taking into account Kerr nonlinearity, distributed losses, and inelastic light scattering processes. Quantum noise squeezing stronger than −20 dB is numerically attained for a customized As2Se3 fibers with realistic parameters for the optimal fiber lengths shorter than 1 m. For commercial As2S3 and customized tellurite glass fibers, the expected squeezing in the −20–−15 dB range can be reached for fiber lengths of the order of 1 m.
Authors with CRIS profile
Involved external institutions
Russian Academy of Sciences / Росси́йская акаде́мия нау́к (RAS)
Russian Federation (RU)
University of Queensland
Australia (AU)
Russian Federation (RU)
University of Queensland
Australia (AU)
How to cite
APA:
Sorokin, A.A., Leuchs, G., Corney, J.F., Kalinin, N.A., Anashkina, E.A., & Andrianov, A. (2022). Towards Quantum Noise Squeezing for 2-Micron Light with Tellurite and Chalcogenide Fibers with Large Kerr Nonlinearity. Mathematics, 10(19). https://dx.doi.org/10.3390/math10193477
MLA:
Sorokin, Arseny A., et al. "Towards Quantum Noise Squeezing for 2-Micron Light with Tellurite and Chalcogenide Fibers with Large Kerr Nonlinearity." Mathematics 10.19 (2022).
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