| [1] | Gorenstein P, Cash W, Gehrels N, et al. The future of high angular resolution X-ray astronomy[C]//Proceedings of SPIE, 2008, 7011:2271816. |
| [2] | Keith Gendreau. Dr.Keith Gendreau talk about NICEER and Modulate X-ray Source[EB/OL].[2016-2-12]. https://www.nasa.gov/feature/goddard/2016/nasa-s-navcube, 2016. |
| [3] | Kealhofer C, Foreman S M, Gerlich S, et al. Ultrafast laser-triggered emission from hafnium carbide tips[J]. Physical Review B, 2011, 86(3):165-173. |
| [4] | Sheng Lizhi, Zhao Baosheng, Zhou Feng, et al. Performance of the detection system for X-ray pulsar based navigation[J]. Acta Photonica Sinica, 2013, 42(9):1071-1076. (in Chinese) |
| [5] | Zschornack. Handbook of X-Ray Data[M]. Berlin:Springer, 2007. |
| [6] | Ziegler E, Hignette O, Morawe C, et al. High-efficiency tunable X-ray focusing optics using mirrors and laterally-graded multilayers[J]. Nuclear Instruments Methods in Physics Research, 2001, 467(2002):954-957. |
| [7] | Jannson T, Gertsenshteyn M, Grubsky V, et al. Through-the-wall sensor systems based on hard X-ray imaging optics[C]//Proceedings of SPIE, 2007, 6538:A1-A9. |
| [8] | Song S, Xu L, Zhang H, et al. Novel X-ray communication based XNAV augmentation method using X-ray detectors[J]. Sensors, 2015, 15(9):22325-22342. |
| [9] | Huang Long, Feng Guoying, Liao Yu. Free space optical communication based on supercontinuum laser source[J]. Infrared Laser Engineering, 2015, 44(12):3530-3534. (in Chinese) |
| [10] | Labiche J C, Mathon O, Pascarelli S, et al. Invited article:The fast readout low noise camera as a versatile X-ray detector for time resolved dispersive extended X-ray absorption fine structure and diffraction studies of dynamic problems in materials science, chemistry, and catalysis[J]. Review of Scientific Instruments, 2007, 78(9):091301. |
| [11] | Wang Z, Wang X, Mu B. Nanoscale patterns made by using a 13.5-nm Schwarzschild objective and a laser produced plasma source[C]//Proceedings of SPIE, 2012, 8430(11):34-38. |
| [12] | Tan A L, Yang Y, Ma J, et al. Influence of misalignment and aberrations on antenna received power in free-space laser communications[J]. Optical Engineering, 2009, 48(8):73-80. |
| [13] | Ma J, Jiang Y, Yu S, et al. Packet error rate analysis of OOK, DPIM and PPM modulation schemes for ground-to-satellite optical communications[J]. Optics Communications, 2010, 283(2):237-242. |
| [14] | Song S B, Xu L P, Zhang H, et al. X-ray communication based simultaneous communication and ranging[J]. Chinese Physics B, 2015, 24(9):289-298. |
| [15] | Wang L Q, Su T, Zhao B S, et al. Bit error rate analysis of X-ray communication system[J]. Acta Physica Sinica, 2015, 64(12):119-123. (in Chinese) |
| [16] | Chen B, Zhao B, Hu H, et al. X-ray photon-counting detector based on a micro-channel plate for pulsarnavigation[J]. Chinese Optics Letters, 2011, 9(6):13-16. |
| [17] | Henke B L, Knauer J P, Premaratne K. The characterization of X-ray photocathodes in the 0.1-10-keV photon energy region[J]. Journal of Applied Physics, 1981, 52(3):1509-1520. |
| [18] | Shchemelev V N, Savinov E P. Total quantum-current yield in the soft X-ray region[J]. Physics of the Solid State, 1998, 40(6):952-955. |
| [19] | Boutboul T, Akkerman A, Gibrekhterman A, et al. An improved model for ultraviolet-and x-ray-induced electron emission from CsI[J]. Journal of Applied Physics, 1999, 86(10):5841-5849. |
| [20] | Hu Huijun, Zhao Baosheng, Sheng Lizhi, et al. X-ray photon counting detector for X-ray pulsar-based navigation[J]. Acta Physica Sinica, 2012, 61(1):019701. (in Chinese) |