Pump Frequency Allocation and Dispersion Effect on Dual-Pump Phase Sensitive Amplifier Gain Spectrum | Zendy

Ruwan U. Weerasuriya | Zendy; Junda Chen | Zendy; Rasmus Larsson | Zendy; Peter A. Andrekson | Zendy

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Pump Frequency Allocation and Dispersion Effect on Dual-Pump Phase Sensitive Amplifier Gain Spectrum

Author(s) -

Ruwan U. Weerasuriya,

Junda Chen,

Rasmus Larsson,

Peter A. Andrekson

Publication year - 2025

Publication title -

ieee photonics technology letters

Language(s) - English

Resource type - Magazines

SCImago Journal Rank - 0.81

H-Index - 157

eISSN - 1941-0174

pISSN - 1041-1135

DOI - 10.1109/lpt.2025.3594193

Subject(s) - engineered materials, dielectrics and plasmas , photonics and electrooptics

Dual-pump fiber optical parametric amplifiers offer wide, flat gain spectra across arbitrary wavelengths, often outperforming the use of single-pump designs. However, gain flatness depends on the pump frequencies’ center of gravity relative to the nonlinear fiber’s zero-dispersion wavelength. This study experimentally investigated the gain, gain flatness, and noise figure of degenerate dual-pump fiber-optic phase-sensitive amplification at various separations between these points. We demonstrated 38 dB gain with 1.5 dB gain flatness variation over a 30 nm bandwidth as well as a noise figure below the conventional 3 dB quantum limit for a degenerate signal.

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