▎ 摘　　要

NOVELTY - The remote sensor has an image intensifier which is provided with a photoelectric cathode array for realizing photoelectric conversion. A micro-channel plate realizes electron multiplication and a fluorescent screen for electronic imaging. A photoelectric cathode unit in the photoelectric cathode array is made of semiconductor. A graphene film is paved on the semiconductor. An infrared filter layer filters light after convergence. The photoelectric cathode unit performs photoelectric conversion to the filtered light and images on the fluorescent screen after the electron multiplication effect of the microchannel plate. USE - Graphene-based low-altitude airborne infrared remote sensor for detecting infrared light in environment (claimed) used in military, agriculture, fire fighting, surveying and mapping, mine, urban heat island phenomenon. ADVANTAGE - The infrared remote sensing instrument makes the detecting height of the remote sensing instrument greatly improved, and improves the sensitivity and temperature adaptability of the infrared response. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic diagram of the graphene-based low-altitude airborne infrared remote sensor. (Drawing includes non-English language text)