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[2].Xiang Zhu, Tao Jin*, Ying Fu, Hao Chi, Lulu Zuo, Weimin Liu, and Qihang Wang, “A frequency-stable optoelectronic oscillator based on passive phase compensation,” IEEE Photonics Technology Letters, 32(10), pp. 612-615, 2020.

[3].宋牟平、庄守望、王轶轩，相位敏感光时域反射计的高频振动检测，中国激光，vol. 47，no.5，pp. 0258-7025，2020

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[6].Y. Z. Deng#, X. Lin#, W. Fang, D. W. Di, L. J. Wang, R. H. Friend, X. G. Peng and Y. Z. Jin, Deciphering exciton-generation processes in quantum-dot electroluminescence., Nat. Commun., 11, 2309 (2020). (#equal contribution).

[7].H. Francis, X.D. Zhang, S. Chen, J.W. Yu, K. J. Che, M. Hopkinson, and C. Y. Jin, “Optical frequency comb generation via cascaded intensity and phase photonic crystal modulators,” IEEE J. Sel. Top. Quant. Electron. DOI:10.1109/JSTQE.2020.3041936 (2020).

[8].S. Behera, P.W. Fry, H. Francis, I. Farrer, C. Jin, and M. Hopkinson, “Photonic integration of uniform GaAs nanowires in hexagonal and honeycomb lattice for broadband optical absorption,” AIP Advances 10, 105211 (2020).

[9].Y.-R. Wang, I.-S. Han, C.-Y. Jin, and M. Hopkinson, “In situ pulsed laser interference nanostructuring of semiconductor surfaces,” J. Laser Micro/Nano Engineering vol.15 (2020).

[10].Y. R. Wang, S. M. Olaizola, I. S. Han, C. Y. Jin, and M. Hopkinson, “Direct patterning of periodic semiconductor nanostructures using single-pulse nanosecond laser interference,” Opt. Expr. vol. 28, pp. 32529-32539 (2020).

[11].Y.-R. Wang, I.-S. Han, C.-Y. Jin, and M. Hopkinson, “Formation of laterally ordered quantum dot molecules by in situ nanosecond laser interference,” Appl. Phys. Lett. vol. 116, p.201901 (2020). 

[12].Y.-R. Wang, I.-S. Han, C.-Y. Jin, and M. Hopkinson, “Precise arrays of epitaxial quantum dots nucleated by in-situ laser interference for quantum information technology applications,” ACS Appl. Nanomater. vol.3, pp.4739-4746 (2020).

[13].L.-F. Wang, Y.-R. Wang, H. Francis, M.-J. Xia, F. Liu, M. Hopkinson, and C.-Y. Jin, “Theoretical modelling of single-mode lasing in microcavity lasers via optical interference injection,” Opt. Expr. 28, 16486 (2020).

[14].S. Behera, P. W. Fry, H. Francis, C.-Y. Jin, and M. Hopkinson, “Broadband, wide-angle antireflection in GaAs through surface nanostructuring for solar cell application.” Sci. Rep. vol. 10, p. 6269 (2020).

[15].S. Chen, H. Francis, C.-H. Ho, K.-J. Che, Y.-R. Wang, M. Hopkinson, S.-Y. Zhang, and C.-Y. Jin, “Control of Q factor in laterally-coupled vertical cavities,” IET Optoelectron., vol. 14, pp. 100-103 (2020).

[16].Y.-R. Wang, M. Hopkinson, I.-S. Han, S. Behera, and C.-Y. Jin, “Directed self-assembly of InAs quantum dots using in situ interference lithography.” Proc. SPIE 11291, 1129107 (2020). DOI: 10.1117/12.2544875

[17].Y.-R. Wang, M. Hopkinson, I.-S. Han, and C.-Y. Jin, “In-situ laser interference patterning of MBE growth surfaces.” Proc. SPIE 11268, 112680U (2020). DOI: 10.1117/12.2544992

[18].H. Francis, S. Chen, K.-J. Che, X.-D. Zhang, M. Hopkinson, and C.-Y. Jin, “Generating optical frequency combs via nanoscale photonic structures.” Proc. SPIE 11274, 1127412 (2020). DOI: 10.1117/12.2546061

[19].S. Behera, Y. Wang, I. S. Han, C. Jin, and M. Hopkinson, “Fabrication of sub-micrometer periodic nanostructures using pulsed laser interference for efficient light trapping in optoelectronic devices.” Proc. SPIE 11267, 112671B (2020). DOI: 10.1117/12.2546212

[20].Wei Ma, Yongmin Liu, “A data-efficient self-supervised deep learning model for design and characterization of nanophotonic structures”, SCIENCE CHINA Physics, Mechanics & Astronomy, 63(8), 1-8 (2020)

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[22].P. Xia, H. Yu, Q. Zhang, Z. Fu, X. Wang, Y. Wang, X. Jiang, J. Yang, A Silicon Optical Single Sideband Modulator with Ultra-High Sideband Suppression Ratio, IEEE Photonics Technology Letters 32 (16), 963-966 (2020).

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[24].X. Wang, H. Yu, H. Qiu, Q. Zhang, Z. Fu, P. Xia, B. Chen, X. Guo, Y. Wang, X. Jiang, and J. Yang, Hitless and gridless reconfigurable optical add drop (de)multiplexer based on looped waveguide sidewall Bragg gratings on silicon, Optics Express 28 (10), 14461-14475 (2020).

[25].Q. Zhang, H. Yu, Z. Fu, X. Wang, P. Xia, Q. Cheng and J. Yang, Improving the linearity of silicon ring modulator by manipulating the photo dynamics, IEEE Photonics Journal 12 (2), 1-10 (2020).

[26].Chaoran Liu, Yishao Wang, Nan Zhang, Xun Yang, Zuankai Wang, Libo Zhao, Weihuang Yang, Linxi Dong , Lufeng Che ,etc. A self-powered and high sensitivity acceleration sensor with V-Q-a model based on triboelectric nanogenerators (TENGs)，Nano Energy 67 (2020) 104228

[27].Chaoran Liu, Yishao Wang, Peng Sun, Jingu Chi, Lufeng Che,etc. A water droplet motion energy harvester with wafer-level fabrication method, J. Micromech. Microeng. 30 (2020) 065006 

[28].Mingjun Xia*, Pierluigi Rubino, Lianhe Li, Iman Kundu, Alex Valavanis, Edmund Linfield, Giles Davies, Paul Dean, “Quantum transmission line modelling and experimental investigation of the output characteristics of a terahertz quantum cascade laser,” IEEE Transactions on Terahertz Science and Technology, 10(3): 1-9, 2020

[29].Mingjun Xia *, Ying Ding, “Non-uniform strained quantum well amplifiers for multichannel optical signal amplification in the WDM system,” Optics Commun. 480(1): 126485, 2020. 

[30].Lingfang Wang, Yunran Wang, Henry Francis, Ri Lu, Mingjun Xia, Feng Liu, Mark Hopkinson and Chaoyuan Jin, “Theoretical modelling of single-mode lasing in microcavity lasers via optical interference injection,” Optics Express, 28(11): 16486-16496, 2020. 

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