Kavli Affiliate: Alireza Marandi
| First 5 Authors: Shivam Mundhra, Elina Sendonaris, Robert M. Gray, James Williams, Alireza Marandi
| Summary:
Thin-film lithium niobate (TFLN) has recently emerged as a promising platform
for integrated nonlinear photonics, enabling the use of optical parametric
amplifiers (OPAs) for applications in quantum information processing, precision
metrology, and ultrafast optical signal processing. However, OPA waveguide
designs have not yet achieved the phase-matching conditions for type-0
operation in a single spectro-temporal mode, limiting their use. We optimize
the waveguide dimensions, poling pattern, pump wavelength, and pump pulse
duration for high spectral purity, a metric for single-mode fidelity. We
numerically demonstrate a nanophotonic OPA with a spectral purity of 0.982 in a
TFLN waveguide. Through semi-classical simulations, we further demonstrate that
in the optical parametric regime, where vacuum fluctuations at the input of the
OPA can saturate the gain and deplete the pump, the macroscopic output of such
a single-mode OPA can be utilized for an ultra-fast quantum random number
generator. These results demonstrate a promising direction for integrated OPAs
in a wide range of ultrafast quantum nanophotonics applications.
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