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14 results on '"Yang, Jianfan"'

1. Phonon-induced anomalous gauge potential for photonic isolation in frequency space

Author

Yang, Jianfan, Yuan, Luqi, Qin, Tian, Zhang, Fangxing, Chen, Yao, Jiang, Xiaoshun, Chen, Xianfeng, Fan, Shanhui, and Wan, Wenjie

Subjects
Physics - Optics, Quantum Physics
Abstract

Photonic gauge potentials are crucial for manipulating charge-neutral photons like their counterpart electrons in the electromagnetic field, allowing analogous Aharonov-Bohm effect in photonics and paving the way for critical applications like photonic isolation. Normally, a gauge potential exhibits phase inversion along two opposite propagation paths. Here we experimentally demonstrate phonon-induced anomalous gauge potentials with non-inverted gauge phases in a spatial-frequency space, where quasi-phase-matched nonlinear Brillouin scatterings enable such unique direction-dependent gauge phases. Based on this scheme, we construct photonic isolators in the frequency domain permitting nonreciprocal propagation of light along the frequency axis, where coherent phase control in the photonic isolator allows switching completely the directionality through an Aharonov-Bohm interferometer. Moreover, similar coherent controlled unidirectional frequency conversions are also illustrated. These results may offer a unique platform for a compact, integrated solution to implement synthetic-dimension devices for on-chip optical signal processing.

Published
2020

2. Slow and fast light enhanced light drag in a moving microcavity

Author

Qin, Tian, Yang, Jianfan, Zhang, Fangxing, Chen, Yao, Shen, Dongyi, Liu, Wei, Chen, Lei, Zheng, Yuanlin, Chen, Xianfeng, and Wan, Wenjie

Subjects
Physics - Optics
Abstract

Fizeau experiment, inspiring Einstein's special theory of relativity, reveals a small dragging effect of light inside a moving medium. Dispersion can enhance such light drag according to Lorentz's predication. Here we experimentally demonstrate slow and fast light enhanced light drag in a moving optical microcavity through stimulated Brillouin scattering induced transparency and absorption. The strong dispersion provides an enhancement factor up to ~10^4, greatly reducing the system size down to the micrometer range. These results may offer a unique platform for a compact, integrated solution to motion sensing and ultrafast signal processing applications.

Published
2019

3. Passive thermal fine-tuning of whispering gallery mode for nonlinear optics in a microcavity

Author

Feng, Yaming, Zheng, Yuanlin, Zhang, Fangxing, Yang, Jianfan, Qin, Tian, and Wan, Wenjie

Subjects
Physics - Optics
Abstract

Whispering gallery mode (WGM) microcavities strongly enhance nonlinear optical processes like optical frequency comb, Raman scattering and optomechanics, which nowadays enable cutting-edge applications in microwave synthesis, optical sensing spectroscopy, and integrated photonics. Yet, tunability of their resonances, mostly via coarse and complicated mechanism through temperature, electrical or mechanical means, still poses a major challenge for precision applications as above. Here we introduce a new passive scheme to finely tune resonances of WGMs at MHz precision with an external probe. Such probe remotely transfers heat through a gap from an optical microcavity, effectively tuning its resonances by thermal-optic nonlinearity. Moreover, we explore this unique technique in microcavity nonlinear optics, demonstrating the generation of a tunable optical frequency comb and backward stimulated Brillouin scattering with variable beating frequencies. This new technique addresses the core problem of WGM microcavity's fine-tuning, paving the way for important applications like spectroscopy and frequency synthesis., Comment: 9 pages,4 figures

Published
2018

4. Observation of Gain Spiking and Nonlinear Beating of Optical Frequency Comb in a Microcavity

Author

Zheng, Yuanlin, Qin, Tian, Yang, Jianfan, Chen, Xianfeng, Ge, Li, and Wan, Wenjie

Subjects
Physics - Optics
Abstract

Optical frequency combs are crucial for both fundamental science and applications demanding wide frequency spanning and ultra-precision resolutions. Recent advancements of nonlinear Kerr effect based optical frequency combs in microcavities open up new opportunities in a compact platform, however, internal cavity-enhanced nonlinearities are still unclear. Here we demonstrate transient nonlinear dynamics during optical frequency comb formation inside a Kerr microcavity. We show that gain spiking forms due to nonlinear phase modulation, causing comb lines' self-detuning nearby a cavity resonance, this introduces one key mechanism to stabilize optical frequency combs. Moreover, nonlinear beating has be observed by injecting an external probe to exam nonlinear cross-phase modulation between comb lines. Nonlinear transient dynamics here reveal the hidden nonlinear features of Kerr based optical frequency combs, leading to a new direction for ultrawide, ultrastable and ultrafast frequency comb generation in microcavities., Comment: 10 pages, 4 figures

Published
2017
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5. Optically Induced Transparency in a Micro-cavity

Author

Zheng, Yuanlin, Yang, Jianfan, Shen, Zhenhua, Cao, Jianjun, Chen, Xianfeng, Liang, Xiaogan, and Wan, Wenjie

Subjects
Physics - Optics
Abstract

Electromagnetically induced transparency has the unique ability to optically control transparency windows with low light in atomic systems. However, its practical applications in quantum physics and information science are limited due to rigid experimental requirements. Here, we demonstrate a new mechanism of optically induced transparency in a micro-cavity by introducing a four-wave mixing gain to nonlinearly couple two separated resonances of the micro-cavity in an ambient environment. A signature Fano-like resonance was observed owing to the nonlinear interference of the two coupled resonances. Moreover, we show that the unidirectional gain of the four-wave mixing can lead to the remarkable effect of non-reciprocal transmission at the transparency windows. Optically induced transparency may offer a unique platform for a compact, integrated solution to all-optical and quantum information., Comment: Revised version. 12 pages, 3 figures

Published
2015

6. Multiphysical sensing of light, sound and microwave in a microcavity Brillouin laser

Author

Yang Jianfan, Qin Tian, Zhang Fangxing, Chen Xianfeng, Jiang Xiaoshun, and Wan Wenjie

Subjects
microcavity, multiphysical sensing, optomechanics, Physics, QC1-999
Abstract

Light, sound, and microwave are important tools for many interdisciplinary applications in a multi-physical environment, and they usually are inefficient to be detected simultaneously in the same physical platform. However, at the microscopic scale, these waves can unexpectedly interact with the same microstructure through resonant enhancement, making it a unique hybrid micro-system for new applications across multiple physical channels. Here we experimentally demonstrate an optomechanical microdevice based on Brillouin lasing operation in an optical microcavity as a sensitive unit to sense external light, sound, and microwave signals in the same platform. These waves can induce modulations to the microcavity Brillouin laser (MBL) in a resonance-enhanced manner through either the pressure forces including radiation pressure force or thermal absorption, allowing several novel applications such as broadband non-photovoltaic detection of light, sound-light wave mixing, and deep-subwavelength microwave imaging. These results pave the way towards on-chip integrable optomechanical solutions for sensing, free-space secure communication, and microwave imaging.

Published
2020
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