[1] Bosch L A. Image intensifier tube performance is what matters[C]//Proc. of SPIE, 2000, 4128: 65-78.

[2] Bender E, Wood M, Hosek D, et al. Characterization of domestic and foreign image intensifier tubes[C]//Proc. SPIE, 2013, 8706: 870607.

[3] Eric Garris. The Gen 3 Advantages[EB/OL].[2018-12-11] https://www.HARRIS.com/sites/default/files/the-gen-3-advantage-white-paperv3.pdf.

[4] Chrzanowsk K. Review of night vision technology[J]. Opto -Electron, 2013, 21(2): 153-181.

[5] Smith C. Detection of special operations forces using night vision devices[R]. ORNL/TM-2001/172, 2001: www.osti.gov/bridge/ product. biblio.jsp.

[6] Vastsia M, Stich U, Dunlap D. Night-Sky Radiant Sterance From 450 to 2000 Nanometers[R]. NTIS, 1972.

[7] Bradley A, Kaiser M, Evaluation of Visual Acuity with Gen III Night Vision Goggles. NASA Technical Memorandum108792[R]. https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19940019501.p df.

[8] Estera J, Saldana M. Gated power supply technologies for advanced image intensifiers[C]//Proc. SPIE, 2003, 4796: 60-70.

[9] Estrera J P, Ford C E, Giordana A, et al. High reliability GaAs image intensifier with unfilmed microchannel plate[C]//Proc. SPIE, 1999, 3749: 713-714.

[10] Estrera J, Bender E, Giordana A, et al. Long lifetime generation IV image intensifiers with unfilmed microchannel plate[C]//Proc. SPIE, 2000, 4128: 46-53.

[11] Smith A, Passmore K, Sillmon R. Transmission mode photo-cathodes covering the spectral range[C/OL]//New Developments in Photodetection 3rd Beaune Conference, 2002: https://www. researchgate.net/publication/284829644_Transmission_mode_phot ocathodes_covering_the_spectral_range.

[12] Floryan N, Devoe T, Peck T, New image intensifier family for military and homeland defense[C]//Proc. SPIE, 2003, 5071: 397-501.

[13] Sinor T W, Estera J P. An analysis of electron scattering in thin dielectric films used as ion barriers in generation III image tubes[C]//Proc. SPIE, 2003, 4796: 23-32.

[14] MIL-STD-3009. Lighting, Aircraft, Night Vision Imaging System (NVIS) Compatible: Superseding MIL-L-85762A[S/OL]. 2001: https://appliedavionics. com/pdf/ MIL- STD- 3009.pdf.

[15] Photonis Corp. XD-4/XR5/4G/4G+ Technical Informatio [EB/ OL]. [2019-02-06]. https://www.photonis.com/products/image-intensi- fier-tube-4g.

[16] Harris Corp. 18 mm Gen3 image intensifier Spec. Sheet [EB/OL]. [2019-02-11]. https://www.harris.com/solution/image-intensifier-tubes.

[17] MIL-STD-1858. Performance Parameters of Image Intensifier Assemblies[S/OL]. DOD, 1981, http://aunv.blackice. com.au/ userfiles/david-mx_10160_milspec_2009 _MX- 10160-GS_ TUBE_ SPEC.pdf.

[18] Ortiz S, Otaduy D, Dorronsoro C. Optimum parameters in image intensifier MTF measurements[C]//Proc. of SPIE, 2004, 5612: 382-391.

[19] PS/09/JXQR/078,Performance Specification Image Intensifier Assembly. 18 mm Microchannel Wafer High Performance Tube MX-10160 GS[S]. http://aunv.blackice.com.au/userfiles/david-mx_10160_milspec_2009_MX-10160-GS_TUBE_SPEC.pdf.

[20] Laurent N, Lejard C, Deltel G, et al. Performance characterization of night vision equipment based on triangle orientation discrimination (TOD) methodology [C]//Proc. SPIE, 2013, 8706: 43-55.

[21] Zacher J, Brandwood T, Thomas P. Effects of image intensifier halo on perceived layout[C]//Proc. of SPIE, 2007, 6557: 65570U.