[1] Betti R, Hurricane O A. Inertial-confinement fusion with lasers[J]. Nature Physics, 12, 435-448(2016).
[2] Badziak J, Domański J. Laser-driven acceleration of ion beams for high-gain inertial confinement fusion[J]. Nuclear Fusion, 61, 046011(2021).
[3] Zylstra A B, Hurricane O A, Callahan D A et al. Burning plasma achieved in inertial fusion[J]. Nature, 601, 542-548(2022).
[4] Budil K S, Perry T S, Bell P M et al. The flexible X-ray imager[J]. Review of Scientific Instruments, 67, 485-488(1996).
[5] Schneider M B, Jones O S, Meezan N B et al. Images of the laser entrance hole from the static X-ray imager at NIF[J]. Review of Scientific Instruments, 81, 10E538(2010).
[6] Hilsabeck T J, Hares J D, Kilkenny J D et al. Pulse-dilation enhanced gated optical imager with 5 ps resolution (invited)[J]. Review of Scientific Instruments, 81, 10E317(2010).
[7] Nagel S R, Hilsabeck T J, Bell P M et al. Dilation X-ray imager a new/faster gated X-ray imager for the NIF[J]. Review of Scientific Instruments, 83, 10E116(2012).
[8] Cai H Z, Fu W Y, Bai Y L et al. Simulation of a dilation X-ray framing camera[J]. Journal of Electronic Imaging, 26, 043003(2017).
[9] Bai Y L, Yao R B, Gao H Y et al. Obtainment of dilating pulse using pulse-dilation framing camera[J]. Optics Express, 28, 15407-15415(2020).
[10] Nagel S R, Hilsabeck T J, Bell P M et al. Investigating high speed phenomena in laser plasma interactions using dilation X-ray imager (invited)[J]. Review of Scientific Instruments, 85, 11E504(2014).
[11] Yuan Z, Yang Z W, Li J et al. Ultrafast time resolution 2D imaging technology based on photoelectron pulse quasi-linearly dilation[J]. High Power Laser and Particle Beams, 26, 052007(2014).
[12] Bai Y L, Long J H, Cai H Z et al. Simulated and measured spatial resolution of framing converter using short magnetic focusing[J]. Journal of Shenzhen University Science and Engineering, 32, 178-182(2015).
[13] Liao Y B, Long J H, Cai H Z et al. Numerically simulated static spatial resolution of framing image converter using magnetic focusing via Matlab[J]. Laser & Optoelectronics Progress, 53, 012301(2016).
[14] Lei Y F, Liu J Y, Cai H Z et al. Study on field curvature characteristics of pulse-dilation framing tube[J]. Acta Optica Sinica, 41, 2132001(2021).
[15] Zhang K, Cai H Z, Liu J Y et al. Spatial resolution for the time dilation X-ray framing camera[J]. Acta Photonica Sinica, 47, 0211003(2018).
[16] Liu J Y, Fu W Y, Deng P K et al. Simulation of a pulse-dilation framing tube with sensitive diameter of 60 mm using large aperture short magnetic lens[J]. Optik, 203, 163974(2020).
[17] Bai Y L, Long J H, Liu J Y et al. Demonstration of 11-ps exposure time of a framing camera using pulse-dilation technology and a magnetic lens[J]. Optical Engineering, 54, 124103(2015).
[18] Li X D, Bai Y L. Influence of lens aperture size on spatial performance of short magnetic focusing framing camera[J]. Optik, 202, 163659(2020).
[19] Bochkov G N, Gavrilin A T, Gorokhov K V. Generalized Rayleigh criterion of two-point resolution[J]. Radiophysics and Quantum Electronics, 48, 394-397(2005).
[20] Csorba I P. Modulation transfer function of image tube lenses[J]. Applied Optics, 16, 2647-2650(1977).
[21] Bai Y L, Yao R B, Gao H Y et al. Analysis and performance test of the high temporal resolution framing imaging technology[J]. Infrared and Laser Engineering, 47, 0624002(2018).
[22] Liao Y B, Liu J Y, Cai H Z et al. Improvement of field curvature in magnetic-focusing image converter tube[J]. Chinese Journal of Lasers, 44, 1004004(2017).
[23] Lei Y F, Liu J Y, Cai H Z et al. Study of the imaging performance of the double lenses pulse-dilation framing camera[J]. Laser & Optoelectronics Progress, 59, 1832001(2022).