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A novel 2-dimensional cosmic ray position detector based on a CsI(Na) pixel array and an ICCD camera
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作者 葛永帅 王志刚 +14 位作者 俞伯祥 谢宇广 章爱武 薛镇 刘颖彪 高龙 牛顺利 蔡啸 方建 孙希磊 吕绮雯 宁飞鹏 周莉 胡涛 吕军光 《Chinese Physics C》 SCIE CAS CSCD 2012年第11期1101-1105,共5页
A novel 2-D cosmic ray position detector has been built and studied. It is integrated from a CsI(Na) crystal pixel array, an optical fiber array, an image intensifier and an ICCD camera. The 2-D positions of one cos... A novel 2-D cosmic ray position detector has been built and studied. It is integrated from a CsI(Na) crystal pixel array, an optical fiber array, an image intensifier and an ICCD camera. The 2-D positions of one cosmic ray track is determined by the location of a fired CsI(Na) pixel. The scintillation light of these 1.0× 1.0 mm CsI(Na) pixels is delivered to the image intensifier through fibers. The light information is recorded in the ICCD camera in the form of images, from which the 2-D positions can be reconstructed. The background noise and cosmic ray images have been studied. The study shows that the cosmic ray detection efficiency can reach up to 11.4%, while the false accept rate is less than 1%. 展开更多
关键词 cosmic ray 2-D position CsI(Na) crystal pixel array optical fiber array image intensifier ICCD camera
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parametric process quadratic waveguide array EPR state
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作者 杨莹 徐平 +1 位作者 陆亮亮 祝世宁 《Communications in Theoretical Physics》 SCIE CAS CSCD 2016年第2期219-224,共6页
We propose the generation of photonic EPR state from quadratic waveguide array. Both the propagation constant and the nonlinearity in the array are designed to possess a periodical modulation along the propagation dir... We propose the generation of photonic EPR state from quadratic waveguide array. Both the propagation constant and the nonlinearity in the array are designed to possess a periodical modulation along the propagation direction.This ensures that the photon pairs can be generated efficiently through the quasi-phase-matching spontaneous parametric down conversion by holding the spatial EPR entanglement in the fashion of correlated position and anticorrelated momentum. The Schmidt number which denotes the degree of EPR entanglement is calculated and it can approach a high value when the number of illuminated waveguide channels and the length of the waveguide array are properly chosen. These results suggest the quadratic waveguide array as a compact platform for engineering photonic quantum states in a high-dimensional Hilbert space. 展开更多
关键词 Photonic EPR State from Quadratic Waveguide array with Alternating Positive and Negative Couplings
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