论文:
1. Xiaochuan Ji, Jinlong Zhang, Hongfei Jiao, Xinbin Cheng, Zhanshan Wang, Igor Kochikov, Alexander Sharov, and Alexander Tikhonravov, "Production of ultra-steep dichroic filters with broad band optical monitoring," Opt. Express 30, 22501-22511 (2022)
2. Siyu Dong, Hongfei Jiao, Zhanshan Wang, Jinlong Zhang, Xinbin Cheng, Interface and defects engineering for multilayer laser coatings, Progress in Surface Science, 2022,100663, ISSN 0079-6816
3. Fei Liu, Hongfei Jiao, Jinlong Zhang*, Bin Yin, Huasong Liu, Yiqin Ji, Zhanshan Wang, Xinbin Cheng, High performance ZnS antireflection sub-wavelength structures with HfO2 protective film for infrared optical windows, Optics Express, 29(20), (2021)
4. Jinlong Zhang, Shenghuan. Fang, I. Kozhevnikov, Xinbin Cheng, Z. S. Wang, Interference suppression of light backscattering through oblique deposition of high-reflectivity multilayers: a theoretical analysis, Optics Express, 28(21),30626-30643 (2020)
5. Jinlong Zhang, Shuaikai Shi, Hongfei Jiao, Xiaochuan Ji, Zhanshan Wang, and Xinbin Cheng, Ultra-broadband reflector using double-layer subwavelength gratings, Photonic Research, 8(3), 426-429(2020)
6. F. Liu, H. F. Jiao, B. Ma, S. Paschel, I. Balasa, D. Ristau, 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 1064nm, Optics and Laser Technology, 127, 106144 (2020)
7. J. L. Zhang, H. Wu, I. Kozhevnikov, S. K. Shi, X. B. Cheng, Z. S. Wang, Interferencesuppression of light backscattering through oblique deposition of a layered reflecting coating: bi-layer on a substrate, Optics Express, 27(11),15262-15282 (2019)
8. Jinlong Zhang, Hongfei Jiao, Bin Ma, Zhanshan Wang, and Xinbin Cheng, Laser-induced damage of nodular defects in dielectric multilayer coating, Optical Engineering, 57(12), 127909, (2018)
9. JinlongZhang,HanWu, Hongfei Jiao, Sven Schroder, Marcus Trost,Zhanshan Wang,Xinbin Cheng,“Reducing light scattering in high-reflection coatings through destructive interference at fully correlated interfaces,” Optics Letters, 42(23), 5046-5049(2017)
10. Jinlong Zhang,XiaoqingBu, Hongfei Jiao,BinMa,Xinbin Cheng,Zhanshan Wang,“Laser damage properties of broadband low-dispersion mirrors in sub-nanosecond laser pulse,” Optics Express, 25(1),000305-000312 (2017)
11.Jinlong Zhang,XiaoqingBu, Ma Bin, Hongfei Jiao,Xinbin Cheng,Zhanshan Wang,“Research on the mechanical stability of high laser resistant coatings on lithium triborate crystal,” Applied Optics, 56(4),C117-C122(2017)
12.Jinlong Zhang,ChongCao, Alexander V.Tikhonravov, Michael K.Trubetskov, Artur Gorokh,Xinbin Cheng, andZhanshan Wang,“Advantages and challenges of optical coating production with indirect monochromatic monitoring,” Applied Optics, 54(11),3433-3439(2015) SCI
13.Jinlong Zhang, Alexander V.Tikhonravov, Yongli Liu, Michael K.Trubetskov, Artur Gorokh, andZhanshan Wang,“Design, production and reverse engineering of ultra-steep hot filters,” Opt. Express, 22(11), 13448-13453 (2014)
14.Jinlong Zhang, Alexander V.Tikhonravov, Michael K.Trubetskov, Yongli Liu,Xinbin Cheng, andZhanshan Wang,“Design and fabrication of ultra-steep notch filters,” Opt. Express, 21(18), 21523-21529 (2013)
15.Jinlong Zhang, Yujiang Xie, Xinbin Cheng,Hongfei Jiao,and Zhanshan Wang,“Thin-film thickness-modulated designs for optical minus filter,” Applied Optics, 52(23),5788-5793(2013)
16.Jinlong Zhang, Yujiang Xie, Xinbin Cheng, TaoDing,and Zhanshan Wang,“Broadband thin-film polarizers for high-power laser systems,” Applied Optics, 52(7),1512-1516(2013)
17. Yongli Liu,Jinlong Zhang, Xinbin Cheng, and Zhanshan Wang, “A new method for accurate measurement of wideband transmittance of thin film coatings at large angle of incidence” Applied Optics, 52,226(2013)
18. Yongli Liu, Jinlong Zhang, Xinbin Cheng, and Zhanshan Wang, "Method for accurate measurement of wideband transmittance of thin-film coatings at large angle of incidence," Appl. Opt. 52, 226-230 (2013)
19. Jinlong Zhang, Zhanshan Wang, Xinbin Cheng. Dispersive mirrors designed with mixed metal multilayer dielectric stacks[J]. Chinese Optics Letters, 2012, 10(1): 013101
