Simultaneous vibrational resonance in the amplitude and phase quadratures of an optical field based on Kerr nonlinearity
Physical Review A(2024)
摘要
Vibrational resonance (VR) is a nonlinear phenomenon in which the system
response to a weak signal can be resonantly enhanced by applying a
high-frequency modulation signal with an appropriate amplitude. The majority of
VR research has focused on amplifying the amplitude or intensity of the system
response to a weak signal, whereas the study of the phase information of system
responses in VR remains limited. Here, we investigate the VR phenomena in both
amplitude and phase quadratures of an optical field in a Kerr nonlinear cavity
driven by a near-resonant weak signal and a far-detuned modulation signal.
Analytical and numerical results demonstrated that the resonant enhancement in
the amplitude and phase quadratures of the system response to a weak signal
simultaneously occurs as the amplitude of the modulation signal is varied.
There is a linear relation between the amplitude and frequency of the
modulation signal for achieving an optimal VR effect. Furthermore, we
generalized our study to investigate the quadrature at an arbitrary phase and
determined that the VR enhancement sensitively depends on the phase. Our
findings not only broaden the scope of VR research by incorporating phase
information but also introduces an approach for amplifying an optical field by
manipulating another optical field.
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