Fabrication and applications of large aperture diffractive optics

被引:10
作者
Dixit, S [1 ]
Britten, J [1 ]
Hyde, R [1 ]
Hoaglan, C [1 ]
Rushford, M [1 ]
Summers, L [1 ]
Toeppen, J [1 ]
机构
[1] Lawrence Livermore Natl Lab, Livermore, CA 94550 USA
来源
LITHOGRAPHIC AND MICROMACHINING TECHNIQUES FOR OPTICAL COMPONENT FABRICATION | 2001年 / 4440卷
关键词
diffraction gratings; Fresnel lenses; computer generated holograms; large aperture diffractive optics; kinoforms; high power lasers; space telescopes;
D O I
10.1117/12.448029
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
Large aperture diffractive optics are needed in high power laser applications to protect against laser damage during operation and in space applications to increase the light gathering power and consequently the signal to noise. We describe the facilities we have built for fabricating meter scale diffractive optics and discuss several examples of these.
引用
收藏
页码:101 / 108
页数:8
相关论文
共 50 条
  • [21] Fabrication and testing of highly efficient resonance domain diffractive optical elements
    Barlev, Omri
    Golub, Michael A.
    Friesem, Asher A.
    Mahalu, Diana
    Nathan, Menachem
    OPTICAL FABRICATION, TESTING, AND METROLOGY IV, 2011, 8169
  • [22] Holographic Recording of Relief-Free Infrared Diffractive Optics based on Semiconductor Nanomaterials
    Krivoshlykov, Sergei G.
    2016 INTERNATIONAL CONFERENCE LASER OPTICS (LO), 2016,
  • [23] Photopolymeric films with highly tunable refractive index modulation for high precision diffractive optics
    Zanutta, Alessio
    Orselli, Enrico
    Faecke, Thomas
    Bianco, Andrea
    OPTICAL MATERIALS EXPRESS, 2016, 6 (01): : 252 - 263
  • [24] Characterization and fabrication of MOEMS-based diffractive optical switching elements
    Verheggen, Jaap
    Panaman, Ganesh
    Castracane, James
    MOEMS DISPLAY, IMAGING, AND MINIATURIZED MICROSYSTEMS IV, 2006, 6114
  • [25] Fabrication of eight-step diffractive optical element for hologram-ROM
    Shinonaga, Yuta
    Ogino, Keito
    Unno, Noriyuki
    Yoshida, Shuhei
    Yamamoto, Manabu
    Taniguchi, Jun
    MICROELECTRONIC ENGINEERING, 2015, 141 : 102 - 106
  • [26] Use of steel substrates in diffractive optics: Near field of high surface quality steel tape gratings
    Javier Salgado-Remacha, Francisco
    Jose Torcal-Milla, Francisco
    Miguel Sanchez-Brea, Luis
    Bernabeu, Eusebio
    OPTICS AND LASERS IN ENGINEERING, 2011, 49 (03) : 356 - 360
  • [27] Design, fabrication, and characterization of a full complex-amplitude modulation diffractive optical element
    Neto, LG
    Cardona, PSP
    Cirino, GA
    Mansano, RD
    Verdonck, P
    JOURNAL OF MICROLITHOGRAPHY MICROFABRICATION AND MICROSYSTEMS, 2003, 2 (02): : 96 - 104
  • [28] Novel method for analysing signal errors caused by polygonal approximations in the fabrication of diffractive elements
    Kallioniemi, I
    Saarinen, J
    Blomstedt, K
    Turunen, J
    MICRO-OPTICAL TECHNOLOGIES FOR MEASUREMENT, SENSORS, AND MICROSYSTEMS II AND OPTICAL FIBER SENSOR TECHNOLOGIES AND APPLICATIONS, 1997, 3099 : 223 - 230
  • [29] Parallelized genetic optimization of spatial light modulator addressing for diffractive applications
    Haist, Tobias
    Lingel, Christian
    Adler, Rodolfo
    Osten, Wolfgang
    APPLIED OPTICS, 2014, 53 (07) : 1413 - 1418
  • [30] Design of diffractive optical elements for high-power laser applications
    Liu, JS
    Thomson, M
    Waddie, AJ
    Taghizadeh, MR
    OPTICAL ENGINEERING, 2004, 43 (11) : 2541 - 2548
12345