The source's energy fluctuation has a great effect on the quality of single-pixel imaging(SPI).When the method of complementary detection is introduced into an SPI camera system and the echo signal is corrected wi...The source's energy fluctuation has a great effect on the quality of single-pixel imaging(SPI).When the method of complementary detection is introduced into an SPI camera system and the echo signal is corrected with the summation of the light intensities recorded by two complementary detectors,we demonstrate,by both experiments and simulations,that complementary single-pixel imaging(CSPI)is robust to the source's energy fluctuation.The superiority of the CSPI structure is also discussed in comparison with previous SPI via signal monitoring.展开更多
基金supported by the Natural Science Research of Jiangsu Higher Education Institutions of China(No.21KJA140001)the Aeronautical Science Foundation of China(No.2020Z073012001)the Startup Funding of Soochow University(No.NH15901123)。
文摘The source's energy fluctuation has a great effect on the quality of single-pixel imaging(SPI).When the method of complementary detection is introduced into an SPI camera system and the echo signal is corrected with the summation of the light intensities recorded by two complementary detectors,we demonstrate,by both experiments and simulations,that complementary single-pixel imaging(CSPI)is robust to the source's energy fluctuation.The superiority of the CSPI structure is also discussed in comparison with previous SPI via signal monitoring.
