Patent ID: 8610104
Filing Date: 2013-12-17
Classification: H01S

Abstract:
1. A Nanotube Array Injection Laser comprising (a) a first electrically conductive layer; (b) at least one array of a plurality of nanotubes superposed on, positioned normal to the plane of, and in electrical communication with the first electrically conductive layer, wherein each nanotube of the plurality of nanotubes comprises sequential first and second sections exhibiting opposite first and second semiconductor-type conductivity, respectively, so as to comprise a p-n or n-p semiconductor junction; (c) a first dielectric layer having a first refractive index superposed on the first electrically conductive layer; (d) a second dielectric layer having a second refractive index superposed on the first dielectric layer, such that the combined thickness of the first and second dielectric layers is about the same as the length of the first section of each nanotube, and wherein the second refractive index is greater than the first refractive index (e) a third dielectric layer superposed on the second dielectric layer, and having the same thickness and being compositionally equivalent to the second dielectric layer; (f) a fourth dielectric layer superposed on the third dielectric layer, and having the same thickness and being compositionally equivalent to the first dielectric layer, such that the combined thickness of the third and fourth dielectric layers is about the same as the length of the second section of each nanotube, wherein the combined first and fourth dielectric layers define the first cladding of a laser waveguide and the combined second and third dielectric layers define the core of the laser waveguide; (g) a second electrically conductive layer superposed on the fourth dielectric layer and in electrical communication with the at least one array of nanotubes; and (h) two side mirrors positioned opposite to one another, normal to the planes of the first and second conductive layers, and parallel to the at least one nanotube array such that the at least one nanotube array is positioned between the two side mirrors, and configured to create a Fabri-Perot resonator for the laser action.