Patent ID: 8958450
Filing Date: 2015-02-17
Classification: B82Y,H01S

Abstract:
1. A quantum cascade laser comprising: a semiconductor substrate; an active layer that is disposed on the semiconductor substrate and has a cascade structure in which a unit layered structure including a quantum well light emitting layer and an injection layer is stacked in multiples to alternately stack the quantum well light emitting layer and the injection layer; and a diffraction grating disposed on the active layer, wherein the unit layered structure has a subband level structure including a first light emission upper level, a second light emission upper level having a higher energy than the first light emission upper level, and a plurality of light emission lower levels having lower energies than the first light emission upper level, light is generated through intersubband transition of an electron from the first light emission upper level and the second light emission upper level to the light emission lower levels in the quantum well light emitting layer, and the electron having undergone the intersubband transition is injected via a level of the injection layer into a quantum well light emitting layer of the unit layered structure of a subsequent period, the quantum well light emitting layer includes n (n is an integer equal to or greater than two) well layers, one of the first light emission upper level and the second light emission upper level is a level attributable to a ground level of a first well layer on the injection layer side of a first period, and the other is a level attributable to an excited level of the well layers except for the first well layer, and an energy difference between the first light emission upper level and the second light emission upper level is set to be smaller than energy of a longitudinal optical phonon, and an energy difference between the second light emission upper level and a high energy level adjacent to and higher than the second light emission upper level is set to be larger than the energy of the longitudinal optical phonon.