Articles:
[1] T. He, T.Liu, S.Y. Xiao, Z.Y. Wei, Z.S Wang*, L.Zhou*,X.B. Cheng*, “Perfect anomalous reflectors at optical frequencies”, Science Advances 8(9) : eabk3381(2022).
[2] X.Deng, G.L. Dai*, J. Liu, X.K. Hu, D.Bergmann, J. Zhao, R.Z. Tai, X.Y. Cai, Y. Li, T.B. Li,X.B. Cheng*, “A new type of nanoscale reference grating manufactured by combined laser-focused atomic deposition and x-ray interference lithography and its use for calibrating a scanning electron microscope”, Ultramicroscopy 226 : 113293(2021).
[3] X. Dun, H. Ikoma, G. Wetzstein, Z.S. Wang,X.B. Cheng*, Y.F. Peng, L.Rotationally “Symmetric Diffractive Achromat for Full-Spectrum Computational Imaging”, Optica7(8) : 913-922 (2020).
[4] F. Liu, H.F. Jiao, B. Ma, S. Paschelc, I. Balasac, D. Ristauc, Z.S. Wang, J.L. Zhang*,X.B. Cheng*, “Influence of the surface and subsurface contaminants on laser-induced damage threshold of anti-reflection sub-wavelength structures working at 1064 nm”, Optics & Laser Technology127 : 106144 (2020).
[5] J.L. Zhang, S.K. Shi, H.F. Jiao, X. C. Ji, Z.S. Wang, andX.B. Cheng*, “Ultra-broadband reflector using double-layer subwavelength gratings”, Photonics Research 8(3), 426-429 (2020)
[6] T. He, J.L. Zhang, H.F. Jiao, Z.S. Wang,X.B. Cheng*, “Near-infrared broadband Si:H/SiO2multilayer gratings with high tolerance to fabrication errors”, Nanotechnology 31(31) : 315203 (2020).
[7] L.Y. Xie, H.S. Liu, J. Zhao, H.F.Jiao, J.L. Zhang, Z.S. Wang,X.B Cheng*, “Influence of dry etching on the properties of SiO2and HfO2single layers”, Applied Optics 59(5) : A128-A134 (2020).
[8] Z.Y. Zhang, H.G. Liang, T. He, Z.S. Wang,X.B. Cheng*, “Photonic spin Hall effect based on broadband high-efficiency reflective metasurfaces”, Applied Optics 59(5) : A63-A68(2020).
[9] S.Y. Dong , J.L. Zhang , H.F. Jiao, W. Zhang, X.Y. Li, Z.S. Wang and X.B. Cheng*, “Nanopillars assisted multilayer antireflection coating for photovoltaics with multiple bandgaps”, Applied Physics Letters, 115(13): 133106 (2019).
[10]X.B. Cheng, S.Y. Dong, Z. Song, S. Paschel, I. Balasa, D. Ristau and Z.S. Wang, “Waterproof coatings for high-power laser cavities”, Light: Science & Applications, 8(1), 12 (2019).
[11]H.H. Fang, P.S. Wu, P. Wang, Z. Zheng, Y.C. Tang, J.C. Ho, G. Chen, Y.M. Wang, C.X. Shan,X.B. Cheng,*J. Zhang,* and W.D. Hu*, “Global Photocurrent Generation in Phototransistors Based on Single-Walled Carbon Nanotubes toward Highly Sensitive Infrared Detection”, Adv. Optical Mater. 1900597, 1-8, (2019).
[12]L. Zhang, Z.Y. Wei, J.L. Zhang, H.S. Liu, Y.Q. Ji, S. Schröder, M. Trost, Z.S. Wang andX.B. Cheng*, “Quantitative assessment and suppression of defect-induced scattering in low-loss mirrors”,Optics Letters, 43(24),6025-6028 (2018).
[13] X. Deng, J. Liu, L.Zhu, B.W. Zhang, P.F. He,X.B. Cheng*, T.B. Li, “Realization of orthogonality in two-step laser focused Cr atomic deposition”, Optik (2019) 185 : 423-428.
[14]J.L. Zhang, H.F. Jiao, B. Ma, Z.S. Wang, and X.B. Cheng*, “Laser-induced damage of nodular defects in dielectric multilayer coatings”, Optical Engineering ,57(12) ,121909 (2018).
[15]X. Deng*, J. Liu, L. Zhu, P.F. He,X.B. Cheng* and T.B. Li, “Natural square ruler at nanoscale”, Applied Physics Express, 11(7), 075201 (2018).
[16]S.Y. Dong, H.F. Jiao, G.H Bao, J.L. Zhang, Z.S. Wang and X.B. Cheng*,“Origin and compensation of deposition errors in a broadband antireflection coating prepared using quartz crystal monitoring”, Thin Solid Films, 660 ,54-58(2018).
[17] X.R. Wang,X.B. Cheng*, L.F. Zhang, X. Deng, and T.B. Li, “Asymmetric line edge roughness of multilayer grating reference materials”, AIP Advances, 8(3), 035311(2018).
[18]L. Zhang, J.L. Zhang, H.F. Jiao, G.H. Bao,Z.S. Wang and X.B. Cheng*,“Thickness-dependent surface morphology and crystallization of HfO2coatings prepared with ion-assisted deposition”, Thin Solid Films, 642, 359-363 (2017).
[19]F. Liu, S.Y. Dong, J.L. Zhang, H.F Jiao, B. Ma, Z.S. Wang and X.B. Cheng*, “Interface and material engineering for zigzag slab lasers”,Scientific Reports, 7, 16699 (2017).
[20]J.L. Zhang, H. Wu, H.F. Jiao, S. Schroder, M. Trost, Z. S. Wang and X. B. Cheng*, “Reducing light scattering in high-reflection coatings through destructive interference at fully correlated interfaces”,Optics Letters, 42(23), 5046-5049 (2017).
[21]X. B. Cheng, T. He, J.L. Zhang, H.F. Jiao, B. Ma, and Z.S. Wang*, “Contribution of angle-dependent light penetration to electric-field enhancement at nodules in optical coatings”, Optics Letters, 42(11), 2086-2089 (2017).
[22]H. P. Ma,X. B. Cheng*, J. L. Zhang, H. F. Jiao, B. Ma, Y. J. Tang, Z. L. Wu and Z. S. Wang, “Effect of boundary continuity on nanosecond laser damage of nodular defects in high-reflection coatings”, Optics Letters,42(3), 478-481 (2017).
[23]J. L. Zhang X.Q. Bu, H. F. Jiao, B. Ma,X. B. Cheng* and Z. S. Wang*, “Laser damage properties of broadband low dispersion mirrors in sub-nanosecond laser pulse”,Optics Express, 25(1), 305-312 (2017).
[24]L. Zhang,X. B. Cheng*, J. L. Zhang, H. F. Jiao, G. H. Bao, T. Ding, and Z. S. Wang, “Characterization of grain sizes and roughness of HfO2single layers”,Applied Optics, 56(4), C24-C29 (2017).
[25]Z. Song,X. B. Cheng*, H. P. Ma, J. L. Zhang, B. Ma, H. F. Jiao, and Z. S. Wang, “Influence of coating thickness on laser-induced damage characteristics of anti-reflection coatings irradiated by 1064 nm nanosecond laser pulses”,Applied Optics, 56(4), C188-C192 (2017).
[26]X. B. Cheng, Z. Song, J. L. Zhang, H. F. Jiao, B. Ma, Z. Sui, and Z. S. Wang*, “Optimal coating solution for a compact resonating cavity working at Brewster angle”,Optics Express,24(21), 24313-24320 (2016).
[27]H. P. Ma,X. B. Cheng*, J. L. Zhang, B. Ma, H. F. Jiao, Z. S. Wang, T. B. Li, J. Yu, Z. J. Kang, Y. J. Tang, “Electric-field intensity enhancement of a series of artificial nodules in a broadband high-reflection coating”, Optical Engineering,56(1), 011027-011027 (2016).
[28]X. B. Cheng, A. Tuniyazi, Z. Y. Wei, J. L. Zhang, D. Tao, H. F. Jiao, B. Ma, H. Q. Li, T. B. Li, and Z. S. Wang*, “Physical insight toward electric field enhancement at nodular defects in optical coatings”, Optics Express,23(7), 8609-8619 (2015).
[29]X. B. Chengand Z. S. Wang*, “Defect-related properties of optical coatings”,Advanced Optical Technologies, 3 (1), 65-90 (2014).Invited Review
[30]X. B. Cheng, A. Tuniyazi, J. L. Zhang, D. Tao, Z. Y. Wei, H. Q. Li and Z. S. Wang, “Nanosecond laser-induced damage of nodular defects in dielectric multilayer mirrors”, Applied Optics, 53, A62-A69 (2014).
[31]X. B. Cheng, J. L. Zhang, D. Tao, Z. Y. Wei, H. Q. Li and Z. S. Wang, “The effect of an electric field on the thermomechanical damage of nodular defects in dielectric multilayer coatings irradiated by nanosecond laser pulses”, Light: Science & Applications ,2, e80 (2013).
[32]Z. S. Wang, G. H. Bao, H. F. Jiao, B. Ma, J. L. Zhang, T. Ding, and X. B. Cheng*, “Interfacial damage in a Ta2O5/SiO2double cavity filter irradiated by 1064 nm nanosecond laser pulses”, Optics Express, 21(25), 30623-30632 (2013).
[33]X. B. Cheng,H. F. Jiao, J. L. Lu, B. Ma, and Z. S. Wang, “Nanosecond pulsed laser damage characteristics of HfO2/SiO2high reflection coatings irradiated from crystal-film interface”, Optics Express,21(12), 14867-14875 (2013).
[34]J. T. Lu,X. B. Cheng, Z. S. Wang, H. S. Liu and Y. Q. Ji “Separation of interface and volume absorption in HfO2single layers”, Optical Engineering, 51, 121814-1-6 (2012) .
[35]X. B. Cheng, Z. X. Shen, H. F. Jiao, J. L. Zhang, B. Ma, T. Ding and Z. S. Wang, “HfO2/SiO2high reflectors for 1.064 um high power laser applications”, Applied Optics 50, C357-C363 (2011) .
[36]X. B. Cheng, B. Fan, J. A. Dobrowolski, L. Wang and Z. S. Wang, “Gradient-index optical filter synthesis with controllable and predictable refractive index profiles”, Optics Express, 16(4): 2315-2321 (2008).
[37]X. B. Cheng, Z. S. Wang, Z. Zhang, F. L. Wang and L. Y. Chen, “Design of X-ray super-mirrors using simulated annealing algorithm”,Optics Communications, 265(1): 197-206 (2006).
Patents:
授权时间 |
代表性授权专利名称及专利号 |
排名 |
2022.2 |
一种高损伤阈值的多层介质膜矩形衍射光栅制备方法202011420469.2 |
第一 |
2021.2 |
一种基于高反膜的线性位相梯度超表面201910893576.8 |
第一 |
2020.7 |
一种二维原子光刻栅格结构制备方法201810548515.3 |
第一 |
2020.6 |
一种用于实现分步沉积型二维原子光刻的装置201810548512.X |
第一 |
2020.4 |
一种修正石英监控法制备宽带增透膜沉积误差的方法201710944000.0 |
第一 |
2017.10 |
一种提高近红外高反膜激光损伤阈值的方法201410050291.5 |
第一 |
2017.3 |
一种钕玻璃激光器用背入射式高反薄膜系统的制备方法201610940925.3 |
第一 |
2015.6 |
一种防水性激光薄膜的制备方法201310093167.2 |
第一 |
2015.1 |
一种光学基板亚表面中纳米吸收中心深度分布的检测方法201310090224.1 |
第一 |
2020.6 |
一种用于板条激光器谐振腔全反射面的薄膜结构201710855096.3 |
第二 |
2019.9 |
一种低散射损耗的高反射薄膜201710865078.3 |
第二 |
2015.7 |
一种抑制半波孔的倍频分束薄膜201310108420.7 |
第二 |
2014.11 |
一种激光薄膜的制备方法201210480267.6 |
第二 |
2017.1 |
一种面向激光薄膜内部缺陷的溯源性损伤阈值测量方法201410050368.9 |
第三 |