Harnessing microcomb-based parallel chaos for random number generation and optical decision making
Optical chaos is vital for various applications such as private communication, encryption, anti-
interference sensing, and reinforcement learning. Chaotic microcombs have emerged as …
interference sensing, and reinforcement learning. Chaotic microcombs have emerged as …
Chaotic microcomb-based parallel ranging
The transition to chaos is ubiquitous in nonlinear systems ranging from fluid dynamics and
superconducting circuits to biological organisms. Optical systems driven out of equilibrium …
superconducting circuits to biological organisms. Optical systems driven out of equilibrium …
Coexistence of nonlinear states with different polarizations in a Kerr resonator
T Huang, H Zheng, G Xu, J Pan, F Xiao, W Sun, K Yan… - Physical Review A, 2024 - APS
Temporal cavity solitons are optical pulses that can persist in passive resonators, such as
microresonators and fiber-based resonators. They can preserve their shape and energy …
microresonators and fiber-based resonators. They can preserve their shape and energy …
Scalable parallel ultrafast optical random bit generation based on a single chaotic microcomb
Random bit generators are critical for information security, cryptography, stochastic
modeling, and simulations. Speed and scalability are key challenges faced by current …
modeling, and simulations. Speed and scalability are key challenges faced by current …
Microcombs in fiber Fabry–Pérot cavities
Optical frequency combs, which consist of precisely controlled spectral lines covering a wide
range, have played a crucial role in enabling numerous scientific advancements. Beyond …
range, have played a crucial role in enabling numerous scientific advancements. Beyond …
Observation of topological frequency combs
On-chip generation of optical frequency combs using nonlinear ring resonators has enabled
numerous applications of combs that were otherwise limited to mode-locked lasers …
numerous applications of combs that were otherwise limited to mode-locked lasers …
Dual-microcomb generation via a monochromatically pumped dual-mode microresonator
R Miao, K Yin, C Zhou, C Zhang, Z Yu, X Zheng… - Photonics …, 2023 - opg.optica.org
Microcombs have enabled a host of cutting-edge applications from metrology to
communications that have garnered significant attention in the last decade. Nevertheless …
communications that have garnered significant attention in the last decade. Nevertheless …
Spectral engineering of optical microresonators in anisotropic lithium niobate crystal
On‐chip optical microresonators are essential building blocks in integrated optics. The
ability to arbitrarily engineer their resonant frequencies is crucial for exploring novel physics …
ability to arbitrarily engineer their resonant frequencies is crucial for exploring novel physics …
Nonreciprocal dissipation engineering via strong coupling with a continuum of modes
Optical nonreciprocity plays a key role in almost every optical system, directing light flow and
protecting optical components from backscattered light. Controllable forms of on-chip …
protecting optical components from backscattered light. Controllable forms of on-chip …
High-coherence parallelization in integrated photonics
Coherent optics has profoundly impacted diverse applications ranging from
communications, LiDAR to quantum computations. However, developing coherent systems …
communications, LiDAR to quantum computations. However, developing coherent systems …