[1] Jiao Yi, Xu Gang, Cui Xiaohao, et al. The HEPS project[J].Journal of Synchrotron Radiation, 2018, 25(6):1611-1618.
[3] Zhong Z, Kao C C, Siddons D P, et al. Sagittal focusing of high-energy synchrotron X-rays with asymmetric Laue crystals. I. Theoretical considerations[J]. Journal of Applied Crystallography, 2001,34(4):504-509.
[4] Zhong Z, Kao C C, Siddons D P, et al. Sagittal focusing of high-energy synchrotron X-rays with asymmetric Laue crystals. II. Experimental studies[J]. Journal of Applied Crystallography, 2001,34(5):646-653.
[5] Shi X, Ghose S, Zhong Z, et al. Surface curvatures and diffraction profiles of sagittally bent Laue crystals[J]. Journal of Applied Crystallography, 2011, 44(4):7.
[6] Thomasset M, Moreno T, Capitanio B, et al. In-situ metrology for the optimization of bent crystals used in hard-X-ray monochromators: Comparison between measurement and simulation[J]. Nuclear Inst & Methods in Physics Research A, 2010, 616(2):197-202.
[7] Ferrer J L. Correction for the twist and the conical defects of a sagittaly bent crystal[J]. Nuclear Instruments & Methods in Physics Research, 1999, 431(1-2):224-233.
[8] Chernikov R, Klementiev K. Recent progress of the XRT: Ray tracing and wave propagation toolkit (Conference Presentation)[C]//Advances in Computational Methods for X-ray Optics IV. 2017.
[9] Shi X, Ghose S, Dooryhee E. Performance calculations of the X-ray powder diffraction beamline at NSLS-II[J]. Journal of Synchrotron Radiation, 2013, 20(2):234-242.
[10] Koseki Y, Tanikawa T, Koyachi N, et al. Kinematic analysis of a translational 3-d.o.f. micro-parallel mechanism using the matrix method[J]. Advanced Robotics, 2002, 16(3):251-264.
[12] Kim J H, Kim S H, Kwak Y K. Development and optimization of 3-D bridge-type hinge mechanisms[J]. Sens Actuator A Phys. 2004, 116: 530-538.
[14] Freund A K, Comin F, Hazemann J L, et al. Performances of various types of benders for sagittally focusing crystals on ESRF synchrotron beamlines[C]//Proc of SPIE. 1998, 3448: 144-145.