QUANTUM CASCADE DETECTOR

摘要

A quantum cascade detector includes a semiconductor substrate, and an active layer formed by laminating unit laminate structures each having an absorption region with a first barrier layer to a second well layer and a transport region with a third barrier layer to an n-th well layer. A second absorption well layer has a layer thickness ½ or less of that of a first absorption well layer thickest in one period, and a coupling barrier layer has a layer thickness smaller than that of an exit barrier layer thickest in one period. The unit laminate structure has a detection lower level arising from a ground level in the first well layer, a detection upper level generated by coupling an excitation level in the first well layer and a ground level in the second well layer, and a transport level structure for electrons.

主权项

1. A quantum cascade detector comprising:
a semiconductor substrate; and an active layer being provided on the semiconductor substrate, and having a cascade structure formed by multistage-laminating unit laminate structures each consisting of n (where n is an integer of 4 or more) quantum barrier layers and n quantum well layers, wherein in the unit laminate structure, the n quantum barrier layers and the n quantum well layers are formed in the order of a first barrier layer, a first well layer, a second barrier layer, a second well layer, . . . , an n-th barrier layer, and an n-th well layer from the side of the unit laminate structure of the preceding stage, the first barrier layer to the second well layer constitute an absorption region, and the third barrier layer to the n-th well layer constitute a transport region, in the absorption region, the first well layer functions as a first absorption well layer, the second well layer functions as a second absorption well layer, and the second barrier layer between these layers functions as a coupling barrier layer, and in the transport region, the third barrier layer functions as an exit barrier layer, the first absorption well layer has the largest layer thickness among the n quantum well layers, the second absorption well layer has a layer thickness ½ or less of that of the first absorption well layer, the exit barrier layer has the largest layer thickness among the n quantum barrier layers, and the coupling barrier layer has a layer thickness smaller than that of the exit barrier layer, the unit laminate structure has, in its subband level structure, a detection lower level arising from a ground level in the first absorption well layer, a detection upper level generated by coupling an excitation level in the first absorption well layer and a ground level in the second absorption well layer, and a third level to an n-th level arising from the third well layer to the n-th well layer, and an energy interval between the detection lower level and the detection upper level is set to be larger than the energy ELO of longitudinal optical phonon, and light is detected by intersubband absorption from the detection lower level to the detection upper level in the absorption region, and electrons excited by the intersubband absorption move to the third level due to the resonant tunneling effect, and are transported to the detection lower level in the unit laminate structure of the subsequent stage via a transport level structure consisting of the third level to the n-th level in the transport region.