Add to ORKGThe Kerr microcomb has a huge potential advantage as a quantum computing platform because of its large-scale and globally coherent optical modes. The micro-comb has always faced a primary problem is how to increase the controllability of frequency domain modes. In this work, based on the pump thresholds of different side modes, we establish a set of method for determining the formation position of side mode comb teeth in a micro-ring cavity with second-order ( ) and third-order ( ) nonlinearity. Based on the second-order autocorrelation function spectrum simulation, our quantum dynamical explanation has a good agreement with the experimental results.Comment: 5figures. arXiv admin note: text overlap with arXiv:2001.02356 by other author
Frequency combs from continuous-wave-driven Kerr-nonlinear microresonators have evolved into a key p...
Dual-comb interferometry harnesses the interference of two laser frequency combs to provide unpreced...
A key challenge for quantum science and technology is to realize large-scale, precisely controllable...
Optical frequency combs have revolutionized precision measurement, time-keeping, and molecular spect...
We present theoretical studies of optical frequency comb generation in dispersive quadratically nonl...
Kerr frequency combs are generated through cascaded four-wave mixing in high-Q microresonators [1]. ...
Kerr nonlinear oscillators driven by a two-photon process are promising systems to encode quantum in...
International audienceBased on a modal description of the evolution of the mode's amplitude in a whi...
Linear bosonic modes offer a hardware-efficient alternative for quantum information processing but r...
Optical frequency combs can be used to measure light frequencies and time intervals more easily and ...
<p> Dual-pumped microring-resonator-based optical frequency combs (OFCs) and their temporal charact...
Synthetic lattices in photonics enable the exploration of light states in new dimensions, transcendi...
Dissipative Kerr solitons are localized structures that exist in nonlinear optical cavities. They le...
In this manuscript, we propose a proposal to enhance the sensitivity of two cavities to its intrinsi...
<p> Entangled photon-pair sources are key building blocks towards the realization of applications i...
Frequency combs from continuous-wave-driven Kerr-nonlinear microresonators have evolved into a key p...
Dual-comb interferometry harnesses the interference of two laser frequency combs to provide unpreced...
A key challenge for quantum science and technology is to realize large-scale, precisely controllable...
Optical frequency combs have revolutionized precision measurement, time-keeping, and molecular spect...
We present theoretical studies of optical frequency comb generation in dispersive quadratically nonl...
Kerr frequency combs are generated through cascaded four-wave mixing in high-Q microresonators [1]. ...
Kerr nonlinear oscillators driven by a two-photon process are promising systems to encode quantum in...
International audienceBased on a modal description of the evolution of the mode's amplitude in a whi...
Linear bosonic modes offer a hardware-efficient alternative for quantum information processing but r...
Optical frequency combs can be used to measure light frequencies and time intervals more easily and ...
<p> Dual-pumped microring-resonator-based optical frequency combs (OFCs) and their temporal charact...
Synthetic lattices in photonics enable the exploration of light states in new dimensions, transcendi...
Dissipative Kerr solitons are localized structures that exist in nonlinear optical cavities. They le...
In this manuscript, we propose a proposal to enhance the sensitivity of two cavities to its intrinsi...
<p> Entangled photon-pair sources are key building blocks towards the realization of applications i...
Frequency combs from continuous-wave-driven Kerr-nonlinear microresonators have evolved into a key p...
Dual-comb interferometry harnesses the interference of two laser frequency combs to provide unpreced...
A key challenge for quantum science and technology is to realize large-scale, precisely controllable...