Introduction to development of streak and framing cameras

Jinshou Tian

doi:10.11884/HPLPB202032.200119

High Power Laser and Particle Beams, Volume. 32, Issue 11, 112003(2020)

Introduction to development of streak and framing cameras

Jinshou Tian1...23 |Show fewer author(s)

Author Affiliations

¹Xi’an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi’an 710119, China

²State Key Laboratory of Ultrafast Diagnosis Technology, Chinese Academy of Sciences, Xi’an 710119, China

³Couaborative innovation center of Extreme optics, Shanxi University, Taiyuan 030006, China

show less

Abstract Get PDF(in Chinese)

References(73)

[1] Peplow M. The next big hit in molecule Hollywood[J]. Nature News, 544, 408(2017).

[2] [2] Johnson C B. Photoelectronic streaktube technology review[C]Proc of SPIE. 1977, 94: 1318

[3] Trebino R, Daniel J K. Using phase retrieval to measure the intensity and phase of ultrashort pulses: frequency resolved optical gating[J]. J of Opt Soc Am A, 10, 1101-1111(1993).

[4] Iaconis C, Walmsley I A. Spectral phase interferometry for direct electric-field reconstruction of ultrashort optical pulses[J]. Opt Lett, 23, 792-794(1998).

[5] [5] Sabrina R Nagela, Hilsabeck T J, Ayers M J, et al. 2D magic field warp reversal in images taken with DIXI (dilation Xray imager)[C]Proc of SPIE. 2016: 88500I.

[6] Sun RenPing, Lai XuanYang, Liu Xiaojun. Tomographic extraction of the internuclear separation based on two-center interference with aligned diatomic molecules[J]. Phys Rev Lett, 122, 193202(2019).

[7] Itatani J, Quéré F, Corkum P B. Attosecond streak camera[J]. Phys Rev Lett, 88, 173903(2002).

[8] [8] Zhao Kun, Zhang Qi, Chang Zenghu, et al. Multiphoton processes attosecond physics[M]Route to One Atomic Unit of Time: Development of a Broadb Attosecond Streak Camera.2012.

[9] Yurtsever A, Zewail A H. 4D nanoscale diffraction observed by convergent-beam ultrafast electron microscopy[J]. Science, 326, 708-712(209).

[10] Nakagawa K, Iwasaki A, Sakuma I. Sequentially timed all-optical mapping photography (STAMP)[J]. Nature Photon, 8, 695-700(2014).

[11] Yu Lu, Chen Feng, Wang Lidai. Compressed ultrafast spectral-temporal photography[J]. Phys Rev Lett, 122, 193904(2019).

[12] Conrtney-Pratt J S. A new method for the photographic study of fast transient phenomena[J]. Research Supply, 2, 287-295(1949).

[13] Bradley D J, Liddy B, Sleat W E. Direct linear measurement of ultrashort light pulses with a picosecond streak camera[J]. Optics Communication, 8, 391-395(1971).

[15] [15] Howth J, Milnes J, Fisher Y, et al. The development of a streak tube with improved time spatial resolution [C]Proc of SPIE. 2017: 103280Q.

[16] [16] Sibbett W, Niu H, Baggs M R. Femtosecond streak image tube[C]Proc of SPIE. 1983, 348: 271275.

[17] [17] Katsuyuki K, Motohiro S, Yoshini I, et al. Femtosecond streak tube[C]Proc of SPIE. 1993, 1982: 180185.

[18] [18] Chang Zenghu, Rundquist A, Kapteyn H, et al. Demonstration of a 0. 54ps Xray streak camera[C]Proc of SPIE. 1997, 2869: 971976.

[19] Feng J, Shin H J, Young A T. An X-ray streak camera with high spatio-temporal resolution[J]. Appl Phy Lett, 91, 134102(2007).

[22] [22] Shakya M M, Chang Zenghu. An accumulative Xray streak camera with 280fs resolution[C]Proc of SPIE. 2004, 5534: 125131.

[23] [23] Danilenko K N, Zyuzin L N, Slavnov Yu K, et al. Highspeed image converter instrument engineering of VNIIOFI is 40 years old[C]Proc of SPIE. 2007: 627908.

[24] Zavoisky E K, Fanchenko S D. Image converter high-speed photography with 10^-9～10^-14sec time resolution[J]. Appl Opt, 4, 1155-1167(1965).

[25] [25] Friedman W, Jackel S. Dynamic range spatial resolution of picoseconds streak cameras[C] Proc of SPIE. 1976, 97: 544547.

[26] [26] Ageeva N V, reev S V, Schelev M, et al. Sub100 fs streak tube: computeraided design, manufacturing, testing[C]Proc of SPIE. 2009: 71261B.

[27] [27] Kinoshita K, Suyama M, Ito M, et al, Femtosecond streak tube[C]Proc of SPIE. 1990, 1358: 490491.

[28] [28] Lebedev V B, Feldman G G, Veinbein P, et al. Development testing of subpicosecond streak camera f soft Xray measurements[C]Proc of SPIE. 1999, 3516: 7484.

[29] [29] Kinoshita K, Ishihara Y, Abe S, et al. Development of a singleshot streak tube with 100 fs time resolution[C]The 31st International Congress on Highspeed Imaging Photonics. 2016: 305310.

[30] [30] https: www. hamamatsu. comeuenproductphotometrysystemsstreakcameraindex. html

[31] [31] Girard A, Loty C, Allamargot J L, et al, P 700 : A new high speed streak tube with lamellar electron optics[C] Proc of SPIE. 1984, 491: 5862.

[32] [32] Alain Mens, Dominique Gontier, Huilizen J C, et al. Highspatiotempalresolution Xray streak cameras with bilamellar tubes: experimental confirmation of the perfmance[C]Proc of SPIE. 1993, 1801: 502513.

[33] [33] Mens A, Dalmasso J M, Sauneuf R, et al. C 850X picosecond highresolution streak camera[C] Proc of SPIE. 1993, 1358: 315328.

[34] Gallant P, Forget P, Kieffer J C. Characterization of a subpicosecond X-ray streak camera for ultrashort laser-produced plasmas experiments[J]. Rev Sci Instrum, 71, 3627-3633(2000).

[35] [35] De Mureau J, Mens A, Mexmain J M, et al, C 850 Xray streak camera with optimized spatiotempal resolution[C]Proc of SPIE. 1988, 981: 8692.

[36] [36] https:www.photonis.comproductsstreaktubesindex.html

[37] [37] Rebuffie J C, Mens A, New streak tubes of the P500 series: features experimental results[C] Proc of SPIE. 1990, 1358: 511523.

[38] Niu H, Sibbett W. Theoretical analysis of space charge effects in photochron streak camera[J]. Rev Sci Instrum, 52, 1830-1836(1981).

[39] [39] Niu H, Zhang H, Wang X H, et al. A new picosecond synchroscan streak image tube [C]Proc of SPIE. 1988, 1032: 468471

[40] [40] Guo Baoping, Niu Hanben. Synchroscan streak camera with fixed frequency f diagnosing light pulses with arbitrary repetition rates[C]Proc of SPIE. 1997, 2869: 149153.

[41] [41] Niu Hanben, Zhang Hai, Yang Qinlao, et al. Experimental study of femtosecond streak image tube[C]Proc of SPIE. 1992, 1801: 10351041.

[42] Qu Junle, Niu Hanben. A soft X-ray streak camera with slit length of 30mm[J]. Chinese Journal of Lasers, B7, 120-125(1998).

[44] [44] Gavganen L, Diamant L, Fedov V, et al. Nanosecond frame cameras based upon proximity focused image intensifiers[C]Proc of SPIE. 1968, 41: 232236.

[45] Lieber A J, Sutphin H D. Nanosecond gating of proximity focused channel plate intensifiers[J]. Rev Sci Inst, 43, 104-109(1972).

[46] Lieber A J, Sutphin H D. Nanosecond high resolution framing camera[J]. Rev Sci Inst, 42, 1663-1667(1971).

[47] Nahrath B, Shakhatre M, Decker G. Nanosecond X-ray pictures recorded with a pulsed channel plate[J]. Rev Sci Instrum, 1, 88-92(1976).

[48] Eckart M J, Hanks R l, Kilkenny J D. Large-area 200-ps gated microchannel plate detector[J]. Rev Sci Instrum, 57, 2046-2048(1986).

[49] Kilkenny J D, Bell P, Hanks R. High speed gated X ray imagers[J]. Rev Sci Instr, 59, 1793-1796(1988).

[50] Ladislas J. Microchannel plate detectors[J]. Nuclear Instruments and Methods, 162, 587-601(1979).

[51] Lieber A J. Picosecond framing camera using a passive microchannel plate[J]. App Opt, 18, 745-746(1979).

[52] Fehl D L, Chang J, Mendel CW. Five-frame X-ray camera for charged particle inertial confinement fusion studies[J]. Rev Sci Instrum, 3, 292-296(1980).

[53] [53] Arvid S, Lundy. Ultrafast gating of proximity focused microchannelplate intensifiers[C]15th Inter Congr on High Speed Photograph Photonics.1982,348: 178189.

[54] Young B K F, Stewartand R E, Woodworth J G. Experiment demonstration of a 100-ps microchannel plate framing camera[J]. Rev Sci Instrum, 11, 2729-2733(1986).

[55] [55] Bell P M, Killkenny J D, Hanks R, et al. Measurements with a 35 ps gate time microchannel plate camera[C]Proc of SPIE. 1990, 456: 1346.

[56] Benedetti L R, Bell P M, Bradley D K. Crosstalk in X-ray framing cameras: Effect on voltage, gain, and timing[J]. Rev Sci Instrum, 83, 10E135(2012).

[57] Izumi N, Hall G N, Bell P M. Development of a dual MCP framing camera for high energy X-rays[J]. Rev Sci Instrum, 85, 11D623(2014).

[58] [58] Lugten J B, Brown C G Jr, Piston K W, et al. Optimizing the input output transmission lines that gate the microchannel plate in a highspeed framing camera[C]Proc of SPIE. 2015: 95910L.

[59] Kimbrough J R, Bell P M, Bradley D K. Standard design for National Ignition Facility X-ray streak and framing cameras[J]. Rev of Sci Instrum, 81, 10E530(2010).

[60] Koga M, Shiraga H. Gain depletion of X-ray framing camera[J]. Rev of Sci Instrum, 88, 083514(2017).

[61] Nagel S R, Carpenter A C, Park J. The dilation aided single−line−of−sight X−ray camera for the National Ignition Facility: Characterization and fielding[J]. Rev of Sci Instrum, 89, 10G125(2018).

[65] Shan Bing, Yanagidaira T, Shimoda K. Quantitative measurement of X-ray images with a gated microchannel plate system in a Z-pinch plasma experiment[J]. Rev Sci Instrum, 70, 1688-1693(1999).

[66] [66] Chang Zenghu. Two MCPs gated in cade f picosecond framing photography[C]Proc of SPIE. 1995, 2513: 119124

[67] Nagel S R, Hilsabeck T J, Dymoke-Bradshaw A K L. Investigating high speed phenomena in laser plasma interactions using dilation X-ray imager[J]. Rev Sci Instrum, 85, 11E504(2014).

[68] Cai Houzhi, Fu Wenyong, Liu Jinyuan. Dilation X-ray framing camera and its temporal resolution uniformity[J]. Opt Express, 27, 2817-2827(2019).

[69] Cai Houzhi, Fu Wenyong, Liu Jinyuan. Synchronous gating in dilation X-ray detector without 1: 1 image ratio[J]. Opt Express, 27, 12470-12482(2019).

[70] Kalibjian R. 100-ps framing-camera tube[J]. Rev of Sci Instrum, 49, 891-896(1978).

[71] [71] Ludikov V V, Prokhov A M, Chevokin V K. A subnanosecond multiframing camera[J]. Advances in Electronics Electron Physics, 1998, 74: 239246.

[72] [72] Lebedev V B, Feldman G G, Kolesov G V, et al. Tests further development of universal imageconverter picosecond camera[C]Proc of SPIE. 1993, 1801: 528535.

[74] [74] Feng Jie, Ding Yongkun, Niu Hanben, et al. Improvements of UVXray framing image tube cameras [C]Proc of SPIE. 1997, 2869: 664667.

[75] Shiraga H, Heya M, Fujishima A. Laser-imploded core structure observed by using two-dimensional X‐ray imaging with 10 ps temporal resolution[J]. Rev Sci Instrum, 66, 722-724(1995).

[76] [76] Heshmat B, Satat G, Barsi C, et al. Singleshot ultrafast imaging using parallaxfree alignment with a tilted lenslet array[C]IEEE, Lasers & ElectroOptics. 2014.

[79] Shiraga H, Miyanaga N, Heya M. Ultrafast two-dimensional X-ray imaging with X-ray streak cameras for laser fusion research[J]. Rev Sci Instrum, 68, 745-749(1997).

[80] Velten A, Willwacher T, Gupta O. Recovering three-dimensional shape around a corner using ultrafast time-of-flight imaging[J]. Nature Communications, 3, 745(2012).

[81] Gao Liang, Liang Jinyang, Li Chiye. Single-shot compressed ultrafast photography at one hundred billion frames per second[J]. Nature, 516, 74-77(2014).

[82] [82] Shiraga H. Review of concepts applications of image sampling on highspeed streak cameras[C]Proc of SPIE. 2016: 103280R.

[83] [83] https:www.cdin.comstreak.html