Claims
- 1. A laser device comprising:
- at least one quantum structure;
- at least two ohmic contacts positioned adjacent the quantum structure such that the ohmic contacts electrically influence the quantum structure; and
- means to apply a varied bias to the ohmic contacts so as to establish a varied bias that creates a transverse electromagnetic transmission (TEM) mode within the quantum structure wherein the TEM mode established by the means to apply a varied bias is characterized by the dispersion law .omega.=cq.sub..parallel., wherein c is the speed of light in the quantum structure and q.sub..parallel. is a wave vector in a direction of propagation.
- 2. A laser device comprising:
- at least one quantum structure;
- at least two ohmic contacts positioned adjacent the quantum structure such that the ohmic contacts electrically influence the quantum structure; and
- means to apply a varied bias to the ohmic contacts so as to establish a varied bias that creates a transverse electromagnetic transmission (TEM) mode within the quantum structure wherein the ohmic contacts include at least one p+ doped region and at least one n- doped region, the p+ and the n- doped region being separated by an i region but distant from one another.
- 3. The laser device of claim 2 wherein the quantum structure is an array of parallel quantum wires that is sandwiched between two p+ regions that are disposed substantially parallel with the array of quantum wires, wherein the array of quantum wires terminates at the n- doped region which is substantially perpendicular to the array of quantum wires.
- 4. The laser device of claim 2 wherein the p+ and n- doped regions are parallel to one another in a V-shaped planar configuration and wherein the quantum structure is a tandem of quantum wires one being comprised of a hole gas composition and one being comprised of an electron gas composition, wherein the tandem of quantum wires extends parallel to the p+ and n- doped regions and are positioned at a bottom portion of a groove in the V-shaped planar configuration.
GOVERNMENT INTEREST
The invention described herein may be made, used, sold, imported, and/or licensed by, or on behalf of, the United States of America without the payment to us of any royalties thereon.
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Number |
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Oct 1987 |
|
4752934 |
Fukuzawa et al. |
Jun 1988 |
|
5345462 |
Choquette |
Sep 1994 |
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5586131 |
Ono et al. |
Dec 1996 |
|