Simulation and Test of Effective Area of Lobster Eye X-Ray Optical Device

Longhui Li; Yan Gu; Zhen Zhang; Zhao Xu; Chen Zhang; Zhixing Lin; Zhenqing Jia; Donghua Zhao; Ge Jin; Yufei Li; Bowen Jiang; Chao Wu; Xiaoming Yang; Chun Song; Xin Zhou; Yidai Liao; Yan Guo; Jingwen Li; Xiaoming Han; Jianqiang Liu

doi:10.3788/AOS202242.0934001

[1] Peele A G, Nugent K A, Rode A V et al. X-ray focusing with lobster-eye optics: a comparison of theory with experiment[J]. Applied Optics, 35, 4420-4425(1996).

[2] Martindale A, Pearson J F, Whitford C et al. The mercury imaging X-ray spectrometer: instrument overview[J]. Proceedings of SPIE, 7441, 744115(2009).

[3] Collon M J, Beijersbergen M W, Wallace K et al. X-ray imaging glass micro-pore optics[J]. Proceedings of SPIE, 6688, 668812(2007).

[4] Peele A G. Irving T H K, Nugent K A, et al. LIGA for lobster: first observation of lobster-eye focusing from lithographically produced optics[J]. Review of Scientific Instruments, 72, 1843-1849(2001).

[5] Zhao D H, Zhang C, Yuan W M et al. Geant4 simulations of a wide-angle X-ray focusing telescope[J]. Experimental Astronomy, 43, 267-283(2017).

[6] Su L N, Li W, Wu M X et al. Modeling the focusing efficiency of lobster-eye optics for image shifting depending on the soft X-ray wavelength[J]. Applied Optics, 56, 6267-6271(2017).

[7] Hudec R, Inneman A V, Pina L et al. Lobster-eye X-ray telescopes: recent progress[J]. Proceedings of SPIE, 4851, 578-586(2003).

[8] Ulmer M P, Graham M E, Vaynman S et al. Deformable mirrors for X-ray astronomy and beyond[J]. Proceedings of SPIE, 8076, 807605(2011).

[9] Aschenbach B, Briel U G, Haberl F et al. Imaging performance of the XMM-Newton X-ray telescopes[J]. Proceedings of SPIE, 4012, 731-739(2000).

[10] Li L H, Zhang C, Jin G et al. Study on the optical properties of Angel Lobster eye X-ray flat micro pore optical device[J]. Optics Communications, 483, 126656(2021).

[11] Amati L, Frontera F, Auricchio N et al. The gamma-ray burst monitor for Lobster-ISS[J]. Advances in Space Research, 38, 1333-1337(2006).

[12] Tichy V, Barbera M, Collura A et al. Lobster eye optics for nano-satellite X-ray monitor[J]. Proceedings of SPIE, 8076, 80760C(2011).

[13] Yuan W M. Special topic of Einstein probe: exploring the dynamic X-ray universe[J]. Scientia Sinica (Physica,Mechanica & Astronomica), 48, 5(2018).

[14] Gotz D, Adami C, Basa S et al. The Microchannel X-ray Telescope on board the SVOM satellite. [C]∥Proceedings of Swift: 10 Years of Discovery: PoS(SWIFT 10), December 2-5, 2014, La Sapienza University, Rome, Italy. Trieste: Sissa Medialab(2014).

[15] Feroci M, Stella L, Klis M et al. The large observatory for X-ray timing (loft)[J]. Experimental Astronomy, 34, 415-444(2012).

[16] Ghirlanda G, Salvaterra R, Toffano M et al. Gamma ray burst studies with THESEUS[J]. Experimental Astronomy, 52, 277-308(2021).

[17] Peng S W, Wei F, Guo Y H et al. Preliminary geometric parameters optimization of lobster-eye-type wide field of view soft X-ray imager[J]. Optical Engineering, 58, 093101(2019).

[18] Peng S, Ye Y, Wei F et al. Numerical model built for the simulation of the earth magnetopause by lobster-eye-type soft X-ray imager onboard SMILE satellite[J]. Optics Express, 26, 15138-15152(2018).

[19] Guo Y H, Peng S W, Wei F et al. Design and simulation of soft X-ray imager on SMILE satellite[J]. Chinese Journal of Geophysics, 61, 4348-4355(2018).

[20] Wang C, Guo X C, Peng Z et al. Magnetohydrodynamics (MHD) numerical simulations on the interaction of the solar wind with the magnetosphere: a review[J]. Science China Earth Sciences, 56, 1141-1157(2013).

[21] Zhang S K, Li L H, Sun J N et al. Surface measurement of Angel Lobster eye X-ray lens based on fringe reflection[J]. Acta Optica Sinica, 39, 0934001(2019).

[22] Liu D, Qiang P F, Li L S et al. Multilayer nested X-ray focusing optical device[J]. Acta Optica Sinica, 36, 0834002(2016).

[23] Le Z C, Liang J Q. Theory of the compound X-ray lenses for focusing high energy X-ray radiation[J]. Acta Optica Sinica, 24, 572-576(2004).