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1,553 results on '"Chen, Yuping"'

1. 3D Orbital Angular Momentum Nonlinear Holography

Author

Shen, Feiyang, Fan, Weiwen, Zhang, Yong, Chen, Yuping, and Chen, Xianfeng

Subjects
Physics - Optics
Abstract

Orbital angular momentum (OAM), due to its theoretically orthogonal and unbounded helical phase index, has been utilized as an independent physical degree of freedom for ultrahigh-capacity information encryption. However, the imaging distance of an OAM hologram is typically inflexible and determined by the focal length of the Fourier transform lens placed behind the hologram. Here, 3D orbital angular momentum holography is proposed and implemented. The Fourier transform between the holographic plane and imaging plane is performed by superimposing Fresnel zone plates (FZP) onto the computer-generated holograms (CGH). The CGH is binarized and fabricated on the birefringence lithium niobate crystal by femtosecond laser micromachining. Experimental verification demonstrates the feasibility of the encoding method. Moreover, by superimposing FZPs with different focal lengths into various OAM channels, OAM-multiplexing holograms are constructed. Target images are separately projected to different planes, thereby enabling 3D multi-plane holographic imaging with low crosstalk. The interval between adjacent imaging planes can be uniform and minimal, free from depth of field constraints, thus achieving high longitudinal resolution. This work achieves OAM holography in a more compact manner and further expands its applicability.

Published
2024

2. Cascaded multi-phonon stimulated Raman scattering near second-harmonic-generation in thin-film lithium niobate microdisk

Author

He, Yuxuan, Yan, Xiongshuo, Wu, Jiangwei, Liu, Xiangmin, Chen, Yuping, and Chen, Xianfeng

Subjects
Physics - Optics
Abstract

High-quality microresonators can greatly enhance light-matter interactions and are excellent platforms for studying nonlinear optics. Wavelength conversion through nonlinear processes is the key to many applications of integrated optics. The stimulated Raman scattering process can extend the emission wavelength of a laser source to a wider range. Lithium niobate, as a Raman active crystalline material, has remarkable potential for wavelength conversion. Here, we demonstrate the generation of cascaded multi-phonon Raman signals near the second-harmonic-generation peak in X-cut thin-film lithium niobate microdisk. Fine tuning of the specific cascaded Raman spectral lines has also been made by changing the pump wavelength. Raman lines can reach wavelength up to about 80 nm away from the SHG signal. We realize the SFG process associated with Raman signals in the visible range as well. Our work extends the use of WGM microresonators as effective optical upconversion wavelength converters in nonlinear optical applications.

Published
2024

3. Enhanced Nonlinear Frequency Conversion Bandwidth through Birefringence induced Mode Hybridization

Author

Yuan, Tingge, Wu, Jiangwei, Wang, Xueyi, Li, Hao, Chen, Yuping, and Chen, Xianfeng

Subjects
Physics - Optics
Abstract

On-chip quantum information network requires qubit transfer between different wavelengths while preserving quantum coherence and entanglement, which needs broadband up-conversion available. Herein, we demonstrate a mode-hybridization based broadband nonlinear frequency conversion on X-cut thin film lithium niobate. With the spontaneous quasi-phase matching and quasi groupvelocity matching being simultaneously satisfied, broadband second harmonic generation with a 3-dB bandwidth up to 13 nm has been achieved in a micro-racetrack resonator. The same mechanism can work on the frequency conversion of the ultra-short pulse in the bent waveguide structure. This work will be beneficial to on-chip tunable frequency conversion and quantum light source generation on integrated photonic platforms, and further enable on-chip large-capacity multiplexing, multichannel optical information processing, and large quantum information networks.

Published
2024

4. Hybrid thin-film lithium niobate micro-ring acousto-optic modulator for microwave-to-optical conversion

Author

Wan, Lei, Huang, Jiying, Wen, Meixun, Li, Huan, Zhou, Wenfeng, Yang, Zhiqiang, Chen, Yuping, Liu, Huilong, Zeng, Siqing, Liu, Dong, Yang, Shuixian, Dai, Daoxin, and Li, Zhaohui

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Highly efficient acousto-optic modulation plays a vital role in the microwave-to-optical conversion. Herein, we demonstrate a hybrid thin-film lithium niobate (TFLN) racetrack micro-ring acousto-optic modulator (AOM) implemented with low-loss chalcogenide (ChG) waveguide. By engineering the electrode configuration of the interdigital transducer, the double-arm micro-ring acousto-optic modulation is experimentally confirmed in nonsuspended ChG loaded TFLN waveguide platform. Varying the position of blue-detuned bias point, the half-wave-voltage-length product VpaiL of the hybrid TFLN micro-ring AOM is as small as 9 mVcm. Accordingly, the acousto-optic coupling strength is estimated to be 0.48 Hz s1/2 at acoustic frequency of 0.84 GHz. By analyzing the generation of phonon number from the piezoelectric transducer, the microwave-to-optical conversion efficiency is calculated to be 0.05%, approximately one order of magnitude larger than that of the state-of-the-art suspended counterpart. Efficient microwave-to-optical conversion thus provides new opportunities for low-power-consumption quantum information transduction using the TFLN-ChG hybrid piezo-optomechanical devices.

Published
2024

7. On-chip Lithium Niobate Heterogeneous Photonic Crystal Nanocavity Laser

Author

Liu, Xiangmin, Ge, Rui, Chen, Chengyu, Wu, Jiangwei, Chen, Yuping, and Chen, Xianfeng

Subjects
Physics - Optics
Abstract

Thin film lithium niobate (TFLN) has become an platform for modern integrated circuits due to its excellent optical properties. With the development of rare earth ion doped TFLN, important breakthroughs of on-chip microlasers has emerged and show significant application for optical communication, computing and quantum photonics. However, challenges still remain in developing compact lasers with small mode volumes and low threshold on rare earth ion doped TFLN for highly efficient dense integration. In this letter, we fabricated a heterogeneous photonic crystal (PhC) nanobeam cavity on erbium-doped TFLN with a quality factor of 1.2\times10^4 and firstly demonstrated a single-mode integrated PhC laser with submicron mode volume on TFLN platform. Laser at 1559.63 nm is achieved with the 974 nm single-mode pump. The effective mode volume is 1.44 ({\lambda}/n)^3 (~ 0.645 {\mu}m^3) and the threshold power is 163 {\mu}W. Enhanced photorefractive effect in the PhC cavity is measured. This lithium niobate photonic crystal nanocavity laser, as a compact telecommunication C-band on-chip light source, would benefit the progress of high-speed and low-cost optical community on TFLN integrated photonics.

Published
2023

8. Self-Amplification-Assisted Highly Efficient Integrated Laser

Author

Wu, Jiangwei, Yan, Xiongshuo, Wang, Xueyi, Yuan, Tingge, Chen, Chengyu, Li, Hao, Chen, Yuping, and Chen, Xianfeng

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Light source is indispensable component in on-chip system. Compared with hybrid or heterogeneous integrated laser, monolithically integrated laser is more suitable for high density photonic integrated circuit (PIC) since the capability of large-scale manufacturing, lower active-passive coupling loss and less test complexity. Recent years have seen the spark of researches on rare-earth ion doped thin film lithium niobate (REI:TFLN), demonstrations have been made both in classical and quantum chips. However, low output power and limited quantum emitting efficiency hinder the application of the chip-scale laser source based on REI:TFLN. Here a highly efficient integrated laser assisted by cascaded amplifiers is proposed and experimentally prepared on Erbium-doped TFLN. A slope efficiency of 0.43% and a linewidth of 47.86 kHz are obtained. The maximum integrated laser power is 7.989 {\mu}W. Our results show a viable solution to improve efficiency by self-amplification without changing the intrinsic quantum emitting efficiency of the material, and our design has potential application in incorporating with functional devices such as optical communications, integrated quantum memory and quantum emission.

Published
2023
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9. Enhanced temperature sensing by multi-mode coupling in an on-chip microcavity system

Author

Wang, Xueyi, Yuan, Tingge, Wu, Jiangwei, Chen, Yuping, and Chen, Xianfeng

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

The micro-cavity is a promising sensor platform, any perturbation would disturb its linewidth, cause resonance shift or splitting. However, such sensing resolution is limited by the cavity's optical quality factor and mode volume. Here we propose and demonstrate in an on-chip integrated microcavity system that resolution of a self referenced sensor could be enhanced with multi mode coupling.

Published
2023

13. Simultaneous $ \chi^{(2)} $- $ \chi^{(2)} $ and $ \chi^{(2)} $-$ \chi^{(3)} $ nonlinear processes generation in thin film lithium tantalate microcavity

Author

Yan, Xiongshuo, Xue, Miao, Wu, Jiangwei, Ge, Rui, Yuan, Tingge, Chen, Yuping, and Chen, Xianfeng

Subjects
Physics - Optics
Abstract

On-chip efficient nonlinear functions are instrumental in escalating the utilities and performance of photonic integrated circuits (PICs), especially for a wide range of classical and quantum applications, such as tunable coherent radiation, optical frequency conversion, spectroscopy, quantum science, etc. Lithium tantalate (LT) has been widely used in nonlinear wavelength converters, surface acoustic wave resonators, and electro-optic, acoustic-optic devices owing to its excellent optical properties. Here, we fabricated a Z-cut lithium tantalate on insulator (LTOI) microdisk with high quality(Q) factors in both telecom (10$^{6}$) and visible (10$^{5}$) bands by optimizing the fabrication. With the Q factor of the LTOI microdisk increasing, we can obtain higher pump light intensity in the cavity which is beneficial to get more optical nonlinear effect easily. By making use of the mode phase matching of interacting waves and inputting high pump power, we experimentally observed on-chip near-infrared light, visible (red, green), and ultraviolet (UV) from microresonator-based $ \chi^{(2)}-\chi^{(2)}$, $ \chi^{(2)}-\chi^{(3)}$, and $\chi^{(2)}$ nonlinear processes such as cascaded four-wave mixing (cFWM), cascaded sum-frequency generation (cSFG), third harmonic generation (THG), second harmonic generation (SHG). It is believed that the LTOI can support a variety of on-chip optical nonlinear processes, which heralds its new application potential in integrated nonlinear photonics.

Published
2022

14. Doubly resonant photonic crystal cavity using merged bound states in the continuum

Author

Ge, Rui, Liu, Xiangmin, Yan, Xiongshuo, Chen, Xianfeng, and Chen, Yuping

Subjects
Physics - Optics
Abstract

In this work, a doubly resonant photonic crystal (PhC) cavity using the merged bound states in the continuum (BICs) is proposed to obtain a higher second harmonic generation (SHG) efficiency. Firstly by scanning geometry parameters the accidental BICs and a band-edge mode outside the light cone can be obtained. Then as the lattice constant or the thickness of the slab is adjusted the accidental BICs will merge. A supercell with large and small holes is constructed and the band-edge mode outside the light cone can be mode-matched with the merged BICs mode. Finally the heterostructure PhC cavity is designed. The merged BICs show a high quality factor for the photonic crystal with finite size. Consequently, the SHG efficiency of the lattice constant near merged BICs of ~6000% W-1 is higher than the one of the isolated BIC.

Published
2022
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15. Large Quality Factor Enhancement Based on Cascaded Uniform Lithium Niobate Bichromatic Photonic Crystal Cavities

Author

Ge, Rui, Yan, Xiongshuo, Liang, Zhaokang, Li, Hao, Wu, Jiangwei, Liu, Xiangmin, Chen, Yuping, and Chen, Xianfeng

Subjects
Physics - Optics
Abstract

In this paper, by cascading several bichromatic photonic crystals we demonstrate that the quality factor can be much larger compared with that in an isolated cavity without increasing the total size of the device. We take lithium niobate photonic crystal as an example to illustrate that the simulated quality factor of the cascaded cavity can attain 10^5 with a 70{\deg} slant angle, which is an order of magnitude larger than that in isolated cavity. The device can be fabricated easily by current etching technique for lithium niobate. We have fabricated the proposed device experimentally including holes with 70{\deg} slant angle. This work is expected to provide guidance to the design of photonic crystal cavity with high-quality factor.

Published
2022
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17. Evaluation of the efficacy of Wall Shear Stress in Carotid Artery Stenting

Author

Tao Xiaoyong, Chen Yuping, Huang Wei, Chen Juan, Qiu Feng, and Li Zhuo

Subjects
Carotid artery stenosis, Stenting, Flow vector imaging, Wall shear stress, Ischemic stroke, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

[Abstract]: Objective: To characterize the value of carotid wall shear stress (WSS) following carotid artery stenting (CAS) in patients with carotid stenosis. Methods: Twenty-eight patients with carotid stenosis treated with CAS between March 2021 to May 2022 in the eighth medical center of the PLA General Hospital were selected for our study. Carotid ultrasound was performed before the operation, one week post-operation, and six months post-operation. Carotid artery WSS was detected by blood flow vector imaging, and the changes in WSS before and after the operation were collected. Genetic testing of drugs was detected for patients with restenosis. Results: Pre-operative WSS of the proximal, narrowest region, and distal carotid arteries in patients with ischemic carotid artery stenosis was 7.88 ± 3.18Pa, 14.36 ± 6.66Pa, and 1.55 ± 1.15Pa, respectively. Comparatively, pre-operative WSS of the proximal, narrowest region and distal carotid arteries in patients without ischemic symptoms was 5.02 ± 1.99Pa, 9.68 ± 4.23Pa, and 1.10 ± 0.68Pa, respectively, with a significant difference between the two groups (p 0.05). Conclusion: We employed early carotid WSS as a means of evaluating the efficacy of carotid artery stenting. Changes in carotid WSS are closely associated with carotid artery stenosis, providing valuable hemodynamic information for CAS treatment. This technique holds great application value in pre-operative evaluation and long-term follow-up.

Published
2024
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24. Tunable single-mode laser on thin film lithium niobate

Author

Liu, Xiangmin, Yan, Xiongshuo, Liu, Yi'an, Li, Hao, Chen, Yuping, and Chen, Xianfeng

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Erbium-doped lithium niobate on insulator (LNOI) laser plays an important role in the complete photonic integrated circuits (PICs). Here, we demonstrate an integrated tunable whisper galley single mode laser (WGSML) by making use of a pair of coupled microdisk and microring on LNOI. A 974 nm single-mode pump light can have an excellent resonance in the designed microdisk, which is beneficial to the whisper gallery mode (WGM) laser generation. The WGSML at 1560.40 nm with a maximum 31.4 dB side mode suppression ratio (SMSR) has been achieved. By regulating the temperature, WGSMLs output power increased and the central wavelength can be changed from 1560.30 nm to 1560.40 nm. What's more, 1560.60 nm and 1565.00 nm WGSMLs have been achieved by changing the coupling gap width between microdisk and microring. We can also use the electro-optic effect of LNOI to obtain more accurate adjustable WGSMLs in further research.

Published
2021
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26. LiverRisk score: An accurate, cost-effective tool to predict fibrosis, liver-related, and diabetes-related mortality in the general population

Author

Liu, Shanghao, Chen, Xiaohan, Jiang, Xuanwei, Yin, Xiaochun, Fekadu, Ginenus, Liu, Chuan, He, Yan, Chen, Huihui, Ni, Wenjing, Wang, Ruiying, Zeng, Qing-Lei, Chen, Yuping, Yang, Ling, Shi, Ruihua, Ju, Sheng-Hong, Shen, Jie, Gao, Jingli, Zhao, Linhua, Ming, Wai-kit, Zhong, Victor W., Teng, Gao-Jun, and Qi, Xiaolong

Published
2024
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34. Chip-scale Spontaneous Quasi-Phase-Matched Micro-Racetrack Resonator

Author

Yuan, Tingge, Liu, Yi'an, Yan, Xiongshuo, Jiang, Haowei, Li, Hao, Ge, Rui, Chen, Yuping, Chen, Xianfeng, and Lin, Qiang

Subjects
Physics - Optics
Abstract

Due to their capacity for non-classical light generation, high-efficiency second-order nonlinear parametric processes play an important role in quantum photonic technology, and chip-scale realization of these processes is recognized as the key to building efficient light sources for integrated quantum photonic circuits. To achieve ultra-high nonlinear conversion efficiency, traditional method uses quasi-phase matching (QPM) technology. However, QPM requires electric field poling, which is incompatible with the CMOS fabrication process, and this hinders the wafer-scale production of integrated photonic circuits. In this paper, we demonstrate efficient spontaneous quasi-phase matched (SQPM) frequency conversion in a micro-racetrack resonator. Our approach does not involve poling, but exploits the anisotropy of the ferroelectric crystals to allow the phase-matching condition to be fulfilled spontaneously as the TE-polarized light circulates in a specifically designed racetrack resonator. SQPM second harmonic generation is observed with a normalized intracavity conversion efficiency of 0.85%/W, corresponding to the 111st-order QPM. This could theoretically reach 186,000%/W by first-order QPM. In this case such high intracavity conversion efficiency can be implemented in practice with an optimized outward coupling. Our configurable SQPM approach will benefit the application of nonlinear frequency conversion in chip-scale integrated photonics with CMOS-compatible fabrication processes, and is applicable to other on-chip nonlinear processes such as quantum frequency conversion or frequency-comb generation.

Published
2021

35. Integrated spiral waveguide amplifiers on erbium-doped thin-film lithium niobate

Author

Yan, Xiongshuo, Liu, Yi'an, Wu, Jiangwei, Chen, Yuping, and Chen, Xianfeng

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Integrated optical amplifiers and light sources are of great significance for photonic integrated circuits (PICs) and have attracted many research interests. Doping rare-earth ions in materials as a solution to realize efficient optical amplifiers and lasing has been investigated a lot. We investigate the erbium-doped lithium niobate on insulator (LNOI). Here, spiral waveguide amplifiers were fabricated on a 1-mol\% erbium-doped LNOI by CMOS-compatible technique. We demonstrated a maximum internal net gain of 8.3 dB at 1530 nm indicating a net gain per unit length of 15.6 dB/cm with a compact spiral waveguide of 5.3 mm length and $ \sim $0.06 mm$ ^{2} $ footprint. The erbium-doped integrated lithium niobate spiral waveguide amplifiers would pave the way in the PICs of the lithium niobate platform, especially in achieving efficient integration of active and passive devices on a lithium niobate thin film, which will make full use of its excellent physical properties such as remarkable photoacoustic, electro-optic, and piezoelectric characteristics.

Published
2021

40. Metabolic regulation of homologous recombination repair by MRE11 lactylation

Author

Chen, Yuping, Wu, Jinhuan, Zhai, Linhui, Zhang, Tingting, Yin, Hui, Gao, Huanyao, Zhao, Fei, Wang, Zhe, Yang, Xiaoning, Jin, Mingpeng, Huang, Bingsong, Ding, Xin, Li, Rui, Yang, Jie, He, Yiming, Wang, Qianwen, Wang, Weibin, Kloeber, Jake A., Li, Yunxuan, Hao, Bingbing, Zhang, Yuanyuan, Wang, Jiadong, Tan, Minjia, Li, Ke, Wang, Ping, Lou, Zhenkun, and Yuan, Jian

Published
2024
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44. On-chip Erbium-doped lithium niobate microcavity laser

Author

Liu, Yi'an, Yan, Xiongshuo, Wu, Jiangwei, Zhu, Bing, Chen, Yuping, and Chen, Xianfeng

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

The commercialization of lithium niobate on insulator (LNOI) wafer has sparked significant on-chip photonic integration application due to its remarkable photonic, photoacoustic, electro-optic and piezoelectric nature. A variety of on-chip LNOI-based optical devices with high performance has been realized in recent years. Here we developed 1 mol\% erbium-doped LN crystal and its LNOI wafer, and fabricated an erbium-doped LNOI microdisk with high quality ($ \sim $ 1.05$\times 10^{^5}$ ). C-band laser emission with $ \sim $1530 nm and $ \sim $1560 nm from the high-Q erbium-doped LNOI microdisk was demonstrated both with 974 nm and 1460 nm pumping, and the latter has better thermal stability. This microlaser would play an important role in the photonic integrated circuits of lithium niobate platform.

Published
2020
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46. Arbitrary access temporal pulse cloaking and restoring in periodically poled lithium niobate

Author

Liu, Yi'an, Chen, Yuping, Ge, Licheng, Jiang, Haowei, Li, Guangzhen, and Chen, Xianfeng

Subjects
Physics - Optics
Abstract

Temporal cloaks have inspired the innovation of research on security and efficiency of quantum and fiber communications for concealing temporal events. The existing temporal cloaking approaches possessing ps ~ns cloaking windows employed the third-order nonlinearity mostly. Here we explore a temporal cloak for perpetually concealing pulse events using high efficiency second-order nonlinearity. A temporal pulse event was cloaked as a continuous wave with constant intensity and restored by polarization dependent sum frequency generation processes between the continuous wave and probe. The variety of quasi phase-matching second-order nonlinear processes in periodically poled lithium niobate make sure the pulse event cannot be filched during transmission. The proposed temporal cloak predicts hopeful applications in information security of photonic integrated circuit on lithium niobite thin film., Comment: 8 pages, 4 figures

Published
2019

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