激光与红外
激光與紅外
격광여홍외
LASER & INFRARED
2014年
11期
1197-1201
,共5页
叶蔚然%孙志斌%刘雪峰%翟光杰%张勇%张寿山%肖刚%冯少辉
葉蔚然%孫誌斌%劉雪峰%翟光傑%張勇%張壽山%肖剛%馮少輝
협위연%손지빈%류설봉%적광걸%장용%장수산%초강%풍소휘
宇宙射线%NLOS%激光定标%瑞利散射%大型高海拔宇宙线观测站%衰减系数
宇宙射線%NLOS%激光定標%瑞利散射%大型高海拔宇宙線觀測站%衰減繫數
우주사선%NLOS%격광정표%서리산사%대형고해발우주선관측참%쇠감계수
cosmic ray%NLOS%laser calibration%Rayleigh scattering%LHAASO%attenuation coefficient
观测高能宇宙射线可通过大气荧光探测技术对次级粒子的研究间接实现,而次级粒子在大气传输中受到大气吸收、散射等影响,会影响探测的准确性。为定性定量地确定上述影响,设计了大气散射衰减定标系统,利用已知脉冲能量的激光器向指定方向发射激光脉冲,通过在地面上另外一点测量散射激光的能量,就可以对大气散射的参数进行标定,从而对次级粒子的能量及方向进行修正。此外通过散射通信中常用的非视距单次散射模型研究了大气传输过程中的散射衰减作用,得到不同角度下的计算仿真结果,为大气散射衰减定标提供了理论依据。
觀測高能宇宙射線可通過大氣熒光探測技術對次級粒子的研究間接實現,而次級粒子在大氣傳輸中受到大氣吸收、散射等影響,會影響探測的準確性。為定性定量地確定上述影響,設計瞭大氣散射衰減定標繫統,利用已知脈遲能量的激光器嚮指定方嚮髮射激光脈遲,通過在地麵上另外一點測量散射激光的能量,就可以對大氣散射的參數進行標定,從而對次級粒子的能量及方嚮進行脩正。此外通過散射通信中常用的非視距單次散射模型研究瞭大氣傳輸過程中的散射衰減作用,得到不同角度下的計算倣真結果,為大氣散射衰減定標提供瞭理論依據。
관측고능우주사선가통과대기형광탐측기술대차급입자적연구간접실현,이차급입자재대기전수중수도대기흡수、산사등영향,회영향탐측적준학성。위정성정량지학정상술영향,설계료대기산사쇠감정표계통,이용이지맥충능량적격광기향지정방향발사격광맥충,통과재지면상령외일점측량산사격광적능량,취가이대대기산사적삼수진행표정,종이대차급입자적능량급방향진행수정。차외통과산사통신중상용적비시거단차산사모형연구료대기전수과정중적산사쇠감작용,득도불동각도하적계산방진결과,위대기산사쇠감정표제공료이론의거。
Observation of high-energy cosmic rays can be achieved by measuring secondary particles with atmospheric fluorescence detection. The secondary particles are influenced by atmospheric absorption and scattering during atmos-pheric transmission,which will affect the accuracy of detection. An atmospheric scattering attenuation calibration sys-tem is designed,and it uses a laser to emit laser pulses of certain energy in some given directions. By measuring the scattering energy of the laser on the ground,the atmospheric scattering parameter can be calibrated and then the ener-gy and direction of high-energy cosmic rays are corrected. Besides,the scattering attenuation effect is studied in the process of atmospheric transmission by using NLOS (non line of sight)single scattering model,and simulation results are obtained in different elevations,which provide a theoretical basis for the atmospheric scattering attenuation calibra-tion.