Propagating disturbances(PDs) were studied along an active region loop using simultaneous imaging and spectroscopy. An image sequence recorded in the Fe Ⅸ/Fe X 171 channel, from TRACE and spectral data in the Si ...Propagating disturbances(PDs) were studied along an active region loop using simultaneous imaging and spectroscopy. An image sequence recorded in the Fe Ⅸ/Fe X 171 channel, from TRACE and spectral data in the Si Ⅻ 520.6 line obtained from CDS/SOHO, are analyzed. A space-time map constructed from the TRACE image sequence shows the presence of PDs close to the loop foot point propagating with an apparent speed of 39 km s-1. The periodicity was found to be 5.4 min.The corresponding spectroscopic data from CDS, at a location away from the foot point, show oscillations in all three line parameters roughly at the same period. At locations farther from the foot point, the line width oscillation seems to disappear while the Doppler velocity oscillation becomes prominent. We attribute this to the signature of propagating slow waves that get affected by flows/other events close to the foot point. Spectral line profiles do not show much asymmetry, however, it is difficult to infer anything due to the broadened Gaussian shape of the CDS line profiles.展开更多
We present a monolithic ultraviolet(UV) image sensor based on a standard CMOS process.A compact UV sensitive device structure is designed as a pixel for the image sensor.This UV image sensor consists of a CMOS pixel...We present a monolithic ultraviolet(UV) image sensor based on a standard CMOS process.A compact UV sensitive device structure is designed as a pixel for the image sensor.This UV image sensor consists of a CMOS pixel array,high-voltage switches,a readout circuit and a digital control circuit.A 16×16 image sensor prototype chip is implemented in a 0.18μm standard CMOS logic process.The pixel and image sensor were measured. Experimental results demonstrate that the image sensor has a high sensitivity of 0.072 V/(mJ/cm^2) and can capture a UV image.It is suitable for large-scale monolithic bio-medical and space applications.展开更多
文摘Propagating disturbances(PDs) were studied along an active region loop using simultaneous imaging and spectroscopy. An image sequence recorded in the Fe Ⅸ/Fe X 171 channel, from TRACE and spectral data in the Si Ⅻ 520.6 line obtained from CDS/SOHO, are analyzed. A space-time map constructed from the TRACE image sequence shows the presence of PDs close to the loop foot point propagating with an apparent speed of 39 km s-1. The periodicity was found to be 5.4 min.The corresponding spectroscopic data from CDS, at a location away from the foot point, show oscillations in all three line parameters roughly at the same period. At locations farther from the foot point, the line width oscillation seems to disappear while the Doppler velocity oscillation becomes prominent. We attribute this to the signature of propagating slow waves that get affected by flows/other events close to the foot point. Spectral line profiles do not show much asymmetry, however, it is difficult to infer anything due to the broadened Gaussian shape of the CDS line profiles.
文摘We present a monolithic ultraviolet(UV) image sensor based on a standard CMOS process.A compact UV sensitive device structure is designed as a pixel for the image sensor.This UV image sensor consists of a CMOS pixel array,high-voltage switches,a readout circuit and a digital control circuit.A 16×16 image sensor prototype chip is implemented in a 0.18μm standard CMOS logic process.The pixel and image sensor were measured. Experimental results demonstrate that the image sensor has a high sensitivity of 0.072 V/(mJ/cm^2) and can capture a UV image.It is suitable for large-scale monolithic bio-medical and space applications.
基金financial supports from the National Natural Science Foundation of China (61801525)the Independent Fund of the State Key Laboratory of Optoelectronic Materials and Technologies (Sun Yat-sen University,OEMT-2022-ZRC-05)+5 种基金the Opening Project of the State Key Laboratory of Polymer Materials Engineering (Sichuan University,sklpme2023-3-5)Shenzhen Science and Technology Program (JCYJ20220530161809020&JCYJ20220818100415033)the Foundation of the State Key Laboratory of Transducer Technology (SKT2301)the Young Top Talent of Fujian Young Eagle Program of Fujian Provincethe Natural Science Foundation of Fujian Province (2023J02013)the National Key R&D Program of China (2022YFB2802051)。