Claims
- 1. A multiple-wavelength coupled-resonator vertical-cavity laser comprising:a) a base distributed Bragg reflector formed on a top surface of a substrate, comprising alternating layers of at least two electrically conducting single crystal semiconductor materials; b) a base electrical terminal functionally attached to the base distributed Bragg reflector; and, c) at least two laser cavity structures disposed in a vertical stack on the top surface of the substrate above the distributed Bragg reflector, each of said laser cavity structures having a resonance wavelength and comprising; 1) an active laser medium stratum; 2) a laser cavity distributed Bragg reflector positioned above the active laser medium stratum, such that the laser cavity distributed Bragg reflector comprises alternating layers of at least two electrically conducting single crystal semiconductor materials; and, 3) a laser cavity electrical terminal functionally attached to the laser cavity distributed Bragg reflector.
- 2. The multiple-wavelength coupled-resonator vertical-cavity laser of claim 1, wherein at least one active laser medium stratum comprises at least one active quantum well.
- 3. The multiple-wavelength coupled-resonator vertical-cavity laser of claim 1, wherein each of the active laser medium strata comprises at least one active quantum well.
- 4. The multiple-wavelength coupled-resonator vertical-cavity laser of claim 1, wherein at least one active laser medium stratum comprises multiple active quantum wells.
- 5. The multiple-wavelength coupled-resonator vertical-cavity laser of claim 4, wherein the band structure of at least one of the active laser medium strata is altered by carrier tunneling between the multiple quantum wells within said active laser medium strata.
- 6. The multiple-wavelength coupled-resonator vertical-cavity laser of claim 1, wherein each of the active laser medium strata comprises multiple active quantum wells.
- 7. The multiple-wavelength coupled-resonator vertical-cavity laser of claim 6, wherein the band structure of each active laser medium stratum is altered by carrier tunneling between the multiple quantum wells within said active laser medium stratum.
- 8. The multiple-wavelength coupled-resonator vertical-cavity laser of claim 1, further comprising current concentration structures.
- 9. The multiple-wavelength coupled-resonator vertical-cavity laser of claim 8, wherein one of the current concentration structures comprises a disordered region within the uppermost laser cavity distributed Bragg reflector.
- 10. The multiple-wavelength coupled-resonator vertical-cavity laser of claim 8, wherein at least one of the current concentration structures is integrated with a laser cavity structure so that said laser cavity structure further comprises an insulating layer with an aperture, said insulating layer being positioned between the active laser medium stratum and the laser cavity distributed Bragg reflector.
- 11. The multiple-wavelength coupled-resonator vertical-cavity laser of claim 8, wherein at least one of the current concentration structures is integrated with a laser cavity structure so that said laser cavity structure further comprises an insulating layer with an aperture, said insulating layer being positioned beneath the active laser medium stratum.
- 12. An optoelectronic system comprising a multiple-wavelength coupled-resonator vertical-cavity laser according to claim 1.
GOVERNMENT RIGHTS
This invention was made with Government support under Contract DE-AC04-94AL85000 awarded by the U.S. Department of Energy. The Government has certain rights in the invention.
US Referenced Citations (1)
Number |
Name |
Date |
Kind |
5914976 |
Jayaraman et al. |
Jun 1999 |
A |