沈乐成 - 中山大学 - 电子与信息工程学院

个人简介

2006年9月~2010年6月，中国科学技术大学，应用物理学，理学学士 2010年8月~2015年5月，美国圣路易斯华盛顿大学，电子工程，工学博士 2015年6月~2017年1月，美国圣路易斯华盛顿大学，博士后 2017年2月~2018年3月，美国加州理工学院，博士后

研究领域

光学工程光学成像光场调控超导量子器件中光和物质耦合的前沿研究

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[33] J. Luo†, Z. Wu†, D. Wu, Z. Liu, X. Wei, Y. Shen*, and Z. Li*, “Efficient glare suppression with Hadamard-encoding-algorithm-based wavefront shaping”, Optics Letters, 44, 4067-4070 (2019). [32] D. Wu, J. Luo, Z. Li, Y. Shen*, “A thorough study on genetic algorithms in feedback-based wavefront shaping”, Journal of Innovative Optical Health Sciences, 1942004 (2019). [31] Z. Zhen, Y. Huang*, Y. Feng, Y. Shen*, Z. Li*, “An ultranarrow photonic nanojet formed by an engineered two-layer microcylinder of high refractive-index materials”, Optics Express 27 (6), 9178-9188 (2019). [30] Z. Wu, J. Luo, Y. Feng*, X. Guo, Y. Shen*, and Z. Li*, “Controlling 1550-nm light through a multimode fiber using a Hadamard encoding algorithm”, Optics Express 27 (4), 5570-5580 (2019). [29] Y. Huang*, Z. Zhen, Y. Shen*, C. Min, and G. Veronis, “Optimization of photonic nanojets generated by multilayer microcylinders with a genetic algorithm”, Optics Express 27 (2), 1310-1325 (2019). [28] L .Song, Y. Feng*, X. Guo, Y. Shen, D. Wu, Z. Wu, C. Zhou, L. Zhu, S. Gao, W. Liu, X. Zhang*, and Z. Li*, “Ultrafast polarization bio-imaging based on coherent detection and time-stretch techniques”, Biomedical Optics Express, 9 (12), 6556-6568 (2018). [27] J. Yang, L. Gong, Y. Shen, and L.V. Wang*, “Synthetic Bessel light needle for extended depth-of-field microscopy”, Applied Physics Letters, 113 (18), 181104 (2018). [26] A. Hemphill, Y. Shen, J. Hwang*, and L.V. Wang*, “High-speed alignment optimization of digital optical phase conjugation systems based on auto-covariance analysis in conjunction with orthonormal rectangular polynomials”, Journal of Biomedical Optics, 24(3), 1-11 (2018). [25] Y. Huang*, Y. Shen, C. Min, and G. Veronis, “Switching photonic nanostructures between cloaking and superscattering regimes structures using phase-change materials”, Optical Materials Express, 8 (6), 1672 (2018). Selected for Editor’s pick. [24] Y. Qu, L. Li, Y. Shen, X. Wei, T.T.W. Wong, P. Hu, J. Yao, K. Maslov, and L.V. Wang*, “Dichroism-sensitive photoacoustic computed tomography”, Optica, 5 (4), 495-501 (2018). [23] Y. Shen†, Z. Chen†, Y.He, Z. Li*, and J.T. Shen*, “Exact approach for spatiotemporal dynamics of spontaneous emissions in waveguide quantum electrodynamic systems”, Journal of the Optical Society of America B, 35, 607 (2018). [22] Y. Liu†, Y. Shen†, H. Ruan, F.L. Brodie, T.T.W. Wong, C. Yang, and L.V. Wang*, “Time-reversed ultrasonically encoded optical focusing through highly scattering ex vivo human cataractous lenses”, Journal of Biomedical Optics, 23(1), 010501 (2018). [21] A. Hemphill, Y. Shen, Y. Liu, and L.V. Wang*, “High-speed single-shot optical focusing through dynamic turbid media using off-axis holography”, Applied Physics Letters, 111(22), 221109 (2017). Selected for Editor’s pick. [20] J. Yang†, Y. Shen†, Y. Liu, A. Hemphill, and L.V. Wang*, “Focusing light through scattering media by polarization modulation based generalized digital optical phase conjugation”, Applied Physics Letters, 111(20), 201108 (2017). Selected for Editor’s pick. Press coverage: Featured in "Scilight" of Applied Physics Letters (2017). [19] Y. Huang*, Y. Shen, C. Min, and G. Veronis, “Switching of the direction of reflectionless light propagation at exceptional points in non-PT-symmetric structures using phase-change materials”, Optics Express, 25 (22), 27283-27297 (2017). [18] J. Yang, L. Gong, X. Xu, P. Hai, Y. Shen, Y. Sukuzi, and L.V. Wang*, “Motionless volumetric photoacoustic microscopy with spatially invariant resolution”, Nature communications, 8, 780 (2017). [17] Y. He, Y. Shen, X. Feng, C. Liu*, and L.V. Wang*, “Homogenizing microwave illumination in thermoacoustic tomography by a linear-to-circular polarizer based on frequency selective surface”, Applied Physics Letters, 111 (6), 063703 (2017). [16] L. Li, L. Zhu, Y. Shen, and L.V. Wang*, “Multi-view Hilbert transformation in full-ring-transducer-array based photoacoustic computed tomography”, Journal of Biomedical Optics, 22(7), 076017-076017 (2017). [15] Y. Huang, Y. Shen, C. Min, S. Fan, and G. Veronis*, “Unidirectional reflectionless light propagation at exceptional points”, Nanophotonics, (2017). [14] Y. Liu, C. Ma, Y. Shen, J. Shi, and L.V. Wang*, “Focusing light inside dynamic scattering tissue with millisecond digital optical phase conjugation”, Optica, 4 (2), 280-288 (2017). [13] Y. He, Y. Shen, C. Liu*, and L.V. Wang*, “Suppressing excitation effects in microwave induced thermoacoustic tomography by multi-view Hilbert transformation”, Applied Physics Letters, 110 (5), 053701 (2017). [12] Y. Shen†, Y. Liu†, C. Ma, and L.V. Wang*, “Sub-Nyquist sampling boosts targeted light transport through opaque scattering media”, Optica, 4 (1), 97-102 (2017). [11] Y. Liu, Y. Shen, C. Ma, J. Shi, and L.V. Wang*, “Lock-in camera based heterodyne holography for ultrasound-modulated optical tomography inside dynamic scattering media”, Applied Physics Letters, 108, 231106 (2016). Selected for Editor’s pick. [10] Y. Shen†, Y. Liu†, C. Ma, and L.V. Wang*, “Focusing light through biological tissue and tissue-mimicking phantoms up to 9.6 cm in thickness with digital optical phase conjugation”, Journal of Biomedical Optics, 21(8), 085001 (2016). [9] Y. Liu, C. Ma, Y. Shen, and L.V. Wang*, “Bit-efficient, sub-millisecond wavefront measurement using a lock-in camera for time-reversal based optical focusing inside scattering media”, Optics Letters, 41, 1321-1324 (2016). [8] Y. Shen†, Y. Liu†, C. Ma, and L.V. Wang*, “Focusing light through scattering media by full-polarization digital optical phase conjugation”, Optics Letters, 41, 1130-1133 (2016). [7] Y. Shen and J.T. Shen*, “Photonic Fock states scattering in waveguide QED and their correlation functions”, Physical Review A, 92, 033803 (2015). [6] Y. Shen, L.V. Wang, and J.T. Shen*, “Ultralong photonic nanojet formed by a two-layer dielectric microsphere”, Optics Letters, 39, 4120-4123 (2014). [5] Y. Shen*, L.V. Wang, and J.T. Shen*, “Deep subwavelength optical imaging using correlated nano-torches”, Applied Physics Letters, 103(20), 201119 (2013). [4] Y. Shen and J.T. Shen*, “Numerical investigation of Rayleigh nanoparticle sensing using a whispering-gallery-mode resonator”, Journal of the Optical Society of America B, 29, 2897 (2012). [3] Y. Shen, D.R. Chen, and J.T. Shen*, “Statistical theory of nanoparticle sensing using a whispering-gallery-mode resonator”, Physical Review A, 85, 063808 (2012). [2] Y. Shen and J.T. Shen*, “Nanoparticle sensing using whispering-gallery-mode resonators: Plasmonic and Rayleigh scatterers”, Physical Review A, 85, 013801, (2012). [1] Y. Shen, M. Bradford, and J.T. Shen*, “Single-photon diode by exploiting the photon polarization in a waveguide”, Physical Review Letters, 107, 173902 (2011). Press coverage: Featured in "Research Highlights" of Nature Photonics 6, 4-5 (2012).