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1,928 results on '"Cui Yiping"'

1. Electrical tunable topological valley photonic crystals for on-chip optical communications in the telecom band

Author

Qi Zhipeng, Hu Guohua, Deng Chunyu, Sun Hao, Sun Yaohui, Li Ying, Liu Bo, Bai Yu, Chen Shuaidong, and Cui Yiping

Subjects
light modulation, optical communications, robust optical transport, telecom band, topological photonics, valley kink state, Physics, QC1-999
Abstract

On-chip optical communications are in increasingly demand for low-loss, small-footprint and power-efficient waveguiding solutions in the telecom band. However, most integrated optical circuits suffer from high propagation loss and low integration degree. Through manipulating the valley-dependent topological phase of light, we have experimentally demonstrated both robust optical transport and electrical modulation of lightwaves at telecom wavelengths in the valley photonic crystals. With the adoption of valley kink states, the 25 Gbit/s optical signal at 1550 nm is successfully transmitted through a highly twisted interface. Furthermore, an extreme high data rate of 100 Gbit/s is demonstrated with such topological waveguide by wavelength division multiplexing. The electrical tunability of the topological modulators based on thermo-optic effect is also verified, opening a novel route towards active valley kink photonic devices. Our study shows a great possibility of making use of the topological protection in building up high-speed datalinks on a chip.

Published
2022
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2. Optical pulling forces on Rayleigh particles using ambient optical nonlinearity

Author

Gong Liping, Zhang Xiaohe, Gu Bing, Zhu Zhuqing, Rui Guanghao, He Jun, Zhan Qiwen, and Cui Yiping

Subjects
pulling force, laser trapping, nonlinear optical effect, two-photon absorption, femtosecond laser pulses, 78.20.bh, 78.67.bf, 87.80.cc, 62.65.an, 42.65.re, Physics, QC1-999
Abstract

Optical pulling forces exerted on small particles can be achieved by tailoring the properties of the electromagnetic field, the particles themselves, or the surrounding environment. However, the nonlinear optical effect of the surrounding environment has been largely neglected. Herein, we report the optical pulling forces on a Rayleigh particle immersed in a nonlinear optical liquid using high-repetition-rate femtosecond laser pulses. The analytic expression of time-averaged optical forces allows us to better understand the underlying mechanism of the particle transportation. It is shown that the two-photon absorption of the surrounding liquid gives rise to a negative radiation force. Transversely confined Rayleigh particles can be continuously dragged towards the light source during a pulling process.

Published
2019
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3. The controllable intensity and polarization degree of random laser from sheared dye-doped polymer-dispersed liquid crystal

Author

Ye Lihua, Li Fangjie, Lu Changgui, Cheng Zhixiang, Hu Guohua, Lu Yanqing, and Cui Yiping

Subjects
polarization degree, intensity, shear, controllable, random laser, Physics, QC1-999
Abstract

The random laser from sheared dye-doped polymer-dispersed liquid crystal (DDPDLC) is investigated. As the emission intensity weakens, the threshold of random laser from DDPDLC increases from 2.0 mJ/pulse to 4.0 mJ/pulse, and the degree of polarization (DOP) increases from 0.1 to 0.78, obviously when the shear distance increases from 0 mm to 4 mm. As the liquid crystal droplets are gradually oriented in the shear direction caused by alignment direction of polymer chain and anisotropy of droplet shape, the scattering intensity perpendicular to the shear direction gradually decreases and that parallel to the shear direction gradually increases. The anisotropic absorption of the laser dye also plays a certain role as the shear distance is 0 mm. The controllable intensity and polarization degree of random laser have a huge potential for sensing applications.

Published
2017
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39. Optical Forces of Focused Ultrafast Laser Pulses on Nonlinear Optical Rayleigh Particles

Author

Gong, Liping, Gu, Bing, Rui, Guanghao, Cui, Yiping, Zhu, Zhuqing, and Zhan, Qiwen

Subjects
Physics - Optics
Abstract

The principle of optical trapping is conventionally based on the interaction of optical fields with linear induced polarizations. However, the optical force originating from the nonlinear polarization becomes significant when nonlinear optical nanoparticles are trapped by ultrafast laser pulses. Herein we establish the time-averaged optical forces on a nonlinear optical nanoparticle using high-repetition-rate ultrafast laser pulses, based on the linear and nonlinear polarization effects. We investigate the dependence of the optical forces on the magnitudes and signs of the refractive nonlinearities. It is found that the self-focusing effect enhances the trapping ability, whereas the self-defocusing effect leads to the splitting of potential well at the focal plane and destabilizes the optical trap. Our results show good agreement with the reported experimental observations and provide a theoretical support for capturing nonlinear optical particles., Comment: 5 pages and 3 figures

Published
2017

41. Profiling of the Citrus Leaf Endophytic Mycobiota Reveals Abundant Pathogen-Related Fungal Groups.

Author

Huang, Feng, Ling, Jinfeng, Cui, Yiping, Guo, Bin, and Song, Xiaobing

Subjects
MANDARIN orange, PHYTOPATHOGENIC microorganisms, POMELO, COLLETOTRICHUM gloeosporioides, FUNGAL communities
Abstract

Plant endophytic microbial communities consist of many latent plant pathogens and, also, many pathogen-related species with reduced virulence. Though with a long history of co-evolution, the diversity and composition of the endophytic mycobiota, especially the pathogen-related fungal groups, has been under-investigated in Citrus (C.). Based on the amplicon sequencing of fungal internal transcribed spacer (ITS), the leaf endophytic mycobiota were profiled on citrus varieties from different citrus-producing regions. The pomelo variety shared significantly distinctive leaf mycobiota when compared to the mandarin and sweet orange; these conform to their host genetic relationships. In addition, a data set of 241 citrus-related fungi, including 171 (71%) pathogens and potential pathogens, was summarized from previous studies. Under the criteria of local BLAST (covered ITS nucleotide ≥ 150 bp, sequence identity ≥ 99%), a total of 935 fungal operational taxonomic units (OTUs) were assigned to 62 pathogen-related fungal groups, representing 14.9% of the relative abundance in the whole community. Of which, the top groups consisted of Colletotrichum gloeosporioides (mean relative abundance, 4.3%), Co. citricola and Co. karstii (2.7%), Zasmidium citri-griseum (2.4%), and Z. fructigenum (1.4%). At the genus level, the ratio of the pathogen-related fungal groups in 64% of fungal genera (16 out of 25) exceeded 50%, which are the solely or mainly occurring fungi of their genus in citrus. Our study suggests that the leaf endophytic compartment may be an important place for the growth of latent pathogens. [ABSTRACT FROM AUTHOR]

Published
2024
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43. Ultra-high extinction ratio and low power silicon thermo-optic switch

Author

Wang, Jin, primary, shi, shangqing, additional, Niu, Hongsheng, additional, Gao, Suzhe, additional, Yang, Bo, additional, Zhang, Shihao, additional, Wei, Cheng, additional, Chen, Yifei, additional, Guo, Chen, additional, Zhu, Wanghua, additional, Hu, Guohua, additional, Cui, Yiping, additional, and Yun, Bin, additional

Published
2024
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