基于Mezei算法的FeCo-Si中子多层膜极化镜优化设计
[1] SCHOENBORN B P,Caspar D L D,Kammerer O F.A novel neutron monochromator[J].Journal of Applied Crystallography,1974,7(5):508-510.
[2] MEZEI F.Novel polarized neutron devices:supermirror and spin component amplifier[J].Communications on Physics,1976,1(3):81-85.
[3] MEZEI F,Dagleish P A.Corrigendum and first experimental evidence on neutron supermirrors[J].Communications on Physics,1977,2(2):41-43.
[4] KRIST T,TEICHERT A,KOVACS-MEIEI R,et.al,Neutron supermirror development[M].New York:Springer,2007:335-370.
[5] ZHANG Z,LIANG Y,LI W B,et al.Stress evolution in B4C and Cr mono-layer and B4C/Cr multilayer films with variable layer thicknesses for neutron detectors[J].Thin Solid Films,2013,531:302-305.
[6] MAAZA M,Spegel M,Sella C,et al.Thermal stability of Co-Ti multilayered neutron polarizers[J].Solid State Communications,1999,112(3):177-181.
[7] Hoghoj P,Anderson I,Siebrecht R,et al.Neutron polarizing Fe/Si mirrors at ILL[J].Physica B:Condensed Matter,1999,267:355-359.
[8] Scharpf O.Comparison of theoretical and experimental behaviour of supermirrors and discussion of limitations[J].Physica B:Condensed Matter,1989,156:631-638.
[9] STAHN J,CLEMENS D.A remanent Fe/Si supermirror transmission polarizer[J].Applied Physics A,2002,74(1):1532-1534.
[10] HAYTER J B,MOOK H A.Discrete thin-film multilayer design for X-ray and neutron supermirrors[J].Journal of Applied Crystallography,1989,22(1):35-41.
[11] PKESHANOV N K.Algorithm for the real-structure design of neutron supermirrors[J].Nuclear Instruments and Methods in Physics Research Section A,2004,524(1/2/3):273-286.
[12] 张众,王占山,吴永荣,等.中子超镜的优化设计[J].原子能科学技术,2010,44(1):84-88.
王俊杰, 张众, 王占山. 基于Mezei算法的FeCo-Si中子多层膜极化镜优化设计[J]. 光学仪器, 2015, 37(5): 461. WANG Junjie, ZHANG Zhong, WANG Zhanshan. Optimized design of FeCo-Si neutron polarizing supermirrors based on Mezei method[J]. Optical Instruments, 2015, 37(5): 461.