Fabrication methods for a quantum cascade photonic crystal surface emitting laser
D. M. TennantR. ColombelliKartik SrinivasanMariano TroccoliOskar PainterClaire GmachlFederico CapassoA. M. SergentD.L. SivcoA. Y. Cho
Abstract
Conventional quantum cascade (QC) lasers are intrinsically edge-emitting devices with mode confinement achieved via a standard mesa stripe configuration. Surface emission in edge emitting QC lasers has therefore necessitated redirecting the waveguided laser emission using a second order grating. This paper describes the methods used to fabricate a 2D photonic crystal (PC) structure with or without a central defect superimposed on an electrically pumped QC laser structure with the goal of achieving direct surface emission. A successful systematic study of PC hole radius and spacing was performed using e-beam lithography. This PC method offers the promise of a number of interesting applications, including miniaturization and integration of QC lasers.
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