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InAs0.052Sb0.948 epilayers with cutoff wavelengths longer than 8 μm were successfully grown on InAs substrates using melt epitaxy (ME). Scanning electron microscopy observations show that the interface between the epilayers and substrates is flat, indicating the good quality of the epilayers, and the thickness of the epilayers is 40 μm. Photoconductors were fabricated using InAs 0.052Sb0.948 thick epilayers grown by ME. Ge optical lenses were set on the photoconductors. At room temperature, the photoresponse wavelength range was 2-10 μm. The peak detectivity D*λp reached 5.4 × 109 cm·Hz 1/2 ·W-1 for the immersed detectors. The detectivity D*was 9.3 × 108 and 1.3 × 108 cm·Hz 1/2 ·W-1 at the wavelength of 8 and 9 μm, respectively. The good performance of the uncooled InAsSb detectors was experimentally validated.
InAs0.052Sb0.948 epilayers with cutoff wavelengths longer than 8 μm were successfully grown on InAs substrates using melt epitaxy (ME). Scanning electron microscopy observations show that the interface between the epilayers and substrates is flat, indicating the good quality of the epilayers, and the thickness of the epilayers was 40 μm. Photoconductors were fabricated using InAs 0.052 Sb0.948 thick epilayers grown by ME. Ge optical lenses were set on the photoconductors. At room temperature, the light wavelength range was 2-10 μm. The peak detectivity D * λp reached 5.4 × 109 cm · Hz 1/2 · W-1 for the immersed detector. The detectivity D * was 9.3 × 108 and 1.3 × 108 cm · Hz 1/2 · W-1 at the wavelength of 8 and 9 μm, respectively. The good performance of the uncooled InAsSb detectors was experimentally validated.