[1] Caillaud T, Landoas O, Briat M, et al. Development of the large neutron imaging system for inertial confinement fusion experiments [J]. Review of Scientific Instruments(S0034-6748), 2012, 83(3): 033502-1-7.
[2] Hansen S B. Investigating inertial confinement fusion target fuel conditions through x-ray spectroscopy [J]. Physics of Plasmas (S1070-664X), 2012, 19(5): 056312-1-4.
[3] Sanislay S, Yuri S, Deming S, et al. Hard x-ray monochromator with milli-electron volt bandwidth for highresolution diffraction studies of diamond crystals [J]. Review of Scientific Instruments(S0034-6748), 2012, 83(2): 023105-1-6.
[4] Reinke M L, Podpaly Y A, Bitter M, et al. X-ray imaging crystal spectroscopy for use in plasma transport research [J]. Review of Scientific Instruments(S0034-6748), 2012, 83(11): 113504-1-12.
[5] Morishita K, Hayashi K, Nakajima K. One-shot spectrometer for several elements using an integrated conical crystal analyzer [J]. Review of Scientific Instruments(S0034-6748), 2012, 83(1): 013112-1-7.
[6] Nakamura N, Faenoy A Y, Pikuz T A. High-resolution x-ray spectromicroscopy with the Tokyo electron beam ion trap [J]. Review of Scientific Instruments(S0034-6748), 1999, 70(3): 1658-1664.
[7] KochJ A, Agliskiy Y, Brown C, et al. 4.5 and 8-keV emission and absorption x-ray imaging using spherically bent quartz 203 and 211 crystals invited [J]. Review of Scientific Instruments(S0034-6748), 2003, 74(3): 2130-2135.
[8] Podoroy S G, Nazarkin A, Forster E, et al. An optimized two crystal arrangement for X-ray optics [J]. Optics Communications (S0030-4018), 2005, 259: 696–699.
[13] Markus K, Kaori K, Shuji M. Design of a doubly-curved crystal to improve X-ray fluorescence analysis of aerosol particles [J]. Spectrochimica Acta Part B(S0584-8547), 2008, 63: 1408–1414.
[14] Sinars D B, Cuneo M E, Bennett G R, et al. Monochromatic x-ray backlighting of wire-array z-pinch plasmas using spherically bent quartz crystals [J]. Review of Scientific Instruments(S0034-6748), 2003, 74(3): 2202-2205.