Since the calibration accuracy decreases with the reduction of irradiance power,the nonlinearity of sensitivity is experimentally investigated and corrected in order to improve the precision of calibration for Solar I...Since the calibration accuracy decreases with the reduction of irradiance power,the nonlinearity of sensitivity is experimentally investigated and corrected in order to improve the precision of calibration for Solar Irradiance Absolute Radiometer( SIAR). The optimization method is proposed based on the interpolation approximation principle. The real-time correction sensitivities are repeatedly measured at each radiant power.The relative system error of sensitivity nonlinearity is 2.2%. The impact of sensitivity nonlinearity is analyzed.The radiant powers are measured by the optimization method and the traditional method. The comparison experiment results illustrate that the optimization method improves the measure accuracy to 0. 1%. The sensitivity nonlinearity is compensated by the real-time correction. Thus,the optimization method significantly improves the calibration precision of ground-based comparison experiment. The investigation of sensitivity nonlinearity also provides the theoretical and experimental basis for optimizing the on-orbit calibration precision of Total Solar Irradiance Monitor( TSIM).展开更多
Motivated by ITER(the International Thermonuclear Experimental Reactor), research on a magnetic shield against a strong field has been carried out. In this paper, a cylindric magnetic shield is studied by using the ...Motivated by ITER(the International Thermonuclear Experimental Reactor), research on a magnetic shield against a strong field has been carried out. In this paper, a cylindric magnetic shield is studied by using the finite element method with a nonlinear magnetization curve. The geometrical aspects of shielding performance are identified and corresponding suggestions for application are provided. Among them, the effects of the edge and cover thickness have not been mentioned elsewhere to our knowledge.展开更多
基金Sponsored by the National Natural Science Foundation of China(Grant Nos.41227003 and 41474161)
文摘Since the calibration accuracy decreases with the reduction of irradiance power,the nonlinearity of sensitivity is experimentally investigated and corrected in order to improve the precision of calibration for Solar Irradiance Absolute Radiometer( SIAR). The optimization method is proposed based on the interpolation approximation principle. The real-time correction sensitivities are repeatedly measured at each radiant power.The relative system error of sensitivity nonlinearity is 2.2%. The impact of sensitivity nonlinearity is analyzed.The radiant powers are measured by the optimization method and the traditional method. The comparison experiment results illustrate that the optimization method improves the measure accuracy to 0. 1%. The sensitivity nonlinearity is compensated by the real-time correction. Thus,the optimization method significantly improves the calibration precision of ground-based comparison experiment. The investigation of sensitivity nonlinearity also provides the theoretical and experimental basis for optimizing the on-orbit calibration precision of Total Solar Irradiance Monitor( TSIM).
文摘Motivated by ITER(the International Thermonuclear Experimental Reactor), research on a magnetic shield against a strong field has been carried out. In this paper, a cylindric magnetic shield is studied by using the finite element method with a nonlinear magnetization curve. The geometrical aspects of shielding performance are identified and corresponding suggestions for application are provided. Among them, the effects of the edge and cover thickness have not been mentioned elsewhere to our knowledge.
