Limit of Laser Protection Capability of Arcsine Coded Imaging System

Yangliang Li; Yunlong Wu; Qing Ye; Bingyan Wei; Haoqi Luo; Ke Sun; Hao Zhang; Wenqi Zhang; Xiaoquan Sun

doi:10.3788/AOS231570

[1] Wang L, Ye Q, Nie J S et al. Tilted wavefront coding system to eliminate the retroreflection with superior imaging property[J]. Applied Optics, 58, 7205-7211(2019).

[2] Wang L, Ye Q, Dou X N et al. Anti-cat-eye effect imaging technique based on the light-field imaging technique[J]. Journal of Electronic Imaging, 28, 053020(2019).

[3] Wang L, Sun X Q, Ye Q. Retroreflection analysis of wavefront coding imaging system[J]. Chinese Journal of Quantum Electronics, 37, 418-429(2020).

[4] Wang L, Dou X N, Ye Q et al. Wavefront coded light-field imaging system to achieve substantial retroreflection reduction and anti-laser blinding property[J]. Optik, 192, 162947(2019).

[5] Monks J N, Yue L Y, Yan B et al. A wide-angle shift-free metamaterial filter design for anti-laser striking application[J]. Optics Communications, 429, 53-59(2018).

[6] Monks J N, Williams J, Hurst A et al. Shift-free fixed-line laser protection filter technology[J]. Proceedings of SPIE, 11539, 1153908(2020).

[7] Ali H E. A novel optical limiter and UV-Visible filters made of Poly (vinyl alcohol)/KMnO4 polymeric films on glass-based substrate[J]. Journal of Materials Science: Materials in Electronics, 30, 7043-7053(2019).

[8] Wu J Q, Wei Y, Shen W L et al. Antimonene nanosheets fabricated by laser irradiation technique with outstanding nonlinear absorption responses[J]. Applied Physics Letters, 116, 261903(2020).

[9] Liu Q R, Hu S Y, Zhang C X et al. Polarization-dependent and wavelength-tunable optical limiting and transparency of multilayer selenium-doped black phosphorus[J]. Advanced Optical Materials, 9, 2001562(2021).

[10] Dong N N, Liu Q H, Wang J. Research progress of two-dimensional nonlinear optical limiting materials[J]. Chinese Journal of Lasers, 48, 1300001(2021).

[11] Liang C L, Wang E Z, Li X et al. Optical limiting performances of transitional metal dichalcogenides MX2 (M=V, Nb, Ta; X=S, Se) with ultralow initial threshold and optical limiting threshold[J]. Chinese Optics Letters, 20, 021901(2022).

[12] Huang Z L, Chen S H, Lü C H et al. Infrared characteristics of VO2 thin films for smart window and laser protection applications[J]. Applied Physics Letters, 101, 191905(2012).

[13] Howes A, Zhu Z H, Curie D et al. Optical limiting based on Huygens' metasurfaces[J]. Nano Letters, 20, 4638-4644(2020).

[14] Wan C H, Zhang Z, Salman J et al. Ultrathin broadband reflective optical limiter[J]. Laser & Photonics Reviews, 15, 2100001(2021).

[15] Guan H, Ren F F, Liang S H et al. Ultra-high transmission broadband tunable VO2 optical limiter[J]. Laser & Photonics Reviews, 17, 2200653(2023).

[16] He S F, Gong M L. Optimized phase mask to realize retro-reflection reduction for optical systems[J]. Journal of Optics, 19, 105610(2017).

[17] He S F, Meng Y, Gong M L. Freeform lens design to eliminate retroreflection for optical systems[J]. Applied Optics, 57, 1218-1224(2018).

[18] Song D L, Chang J, Zhao Y F et al. Anti-detection technology of cat eye target based on decentered field lens[J]. Chinese Physics B, 27, 094220(2018).

[19] Cui Y L, Zhou Z Y, Huang W et al. Progress and prospect of mid-infrared fiber laser technology[J]. Acta Optica Sinica, 42, 0900001(2022).

[20] Li J S, Li B, Zhang D et al. Research advances of visible supercontinuum generation in graded-index multimode fibers[J]. Laser & Optoelectronics Progress, 60, 2300004(2023).

[21] Jiang L, Song R, Hou J et al. Research progress of high-power visible to near-infrared supercontinuum source[J]. Acta Optica Sinica, 43, 1719001(2023).

[22] Dowski E R, Cathey W T. Extended depth of field through wave-front coding[J]. Applied Optics, 34, 1859-1866(1995).

[23] Cathey W T, Dowski E R. New paradigm for imaging systems[J]. Applied Optics, 41, 6080-6092(2002).

[24] Ye Q, Wu Y L, Li Y L et al. A retroreflection reduction technique based on the wavefront coded imaging system[J]. Crystals, 11, 1366(2021).

[25] Ruane G J, Watnik A T, Swartzlander G A. Reducing the risk of laser damage in a focal plane array using linear pupil-plane phase elements[J]. Applied Optics, 54, 210-218(2015).

[26] Wang L, Ye Q, Nie J S et al. Optimized asymmetrical arcsine phase mask for extending the depth of field[J]. IEEE Photonics Technology Letters, 30, 1309-1312(2018).

[27] Wang Z, Bovik A C, Sheikh H R et al. Image quality assessment: from error visibility to structural similarity[J]. IEEE Transactions on Image Processing, 13, 600-612(2004).

[28] Barakat R. Rayleigh wavefront criterion[J]. Journal of the Optical Society of America, 55, 572-573(1965).

[29] Karl F R[M]. Basics of laser physics: for students of science and engineering(2017).

[30] Schmidt J D[M]. Numerical simulation of optical wave propagation with examples in MATLAB(2010).

[31] Voelz D G[M]. Computational Fourier optics: a MATLAB tutorial(2011).

[32] Akima H. A method of bivariate interpolation and smooth surface fitting based on local procedures[J]. Communications of the ACM, 17, 18-20(1974).