Monolithically Peltier-cooled laser diodes
- 1 April 1984
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in Journal of Lightwave Technology
- Vol. 2 (2), 175-180
- https://doi.org/10.1109/jlt.1984.1073592
Abstract
A new method of cooling a GaAs/GaAlAs laser in an optical integrated circuit or on a discrete chip, by adding an integral thermoelectric (Peltier) cooling and heat spreading device to the laser, is presented. This cooling both reduces and stabilizes the laser junction temperature to minimize such deleterious effects as wavelength drift due to heating. A unified description of the electrical and thermal properties of a monolithic semiconductor mesa structure is given, Here it is shown that an improvement in thermal characteristics is obtained by depositing a relatively thick metallic layer, and by using this layer as a part of an active Peltier structure. Experimental results reveal a 14-percent increase in emitted power (external quantum efficiency) due to passive heat spreading and a further 8-percent if its Peltier cooler is operated. Fabrication techniques used to obtain devices exhibiting the above performance characteristics are given.Keywords
This publication has 14 references indexed in Scilit:
- Integrated Optics: Theory and TechnologyPublished by Springer Nature ,1982
- Effects of contact resistance and dopant concentration in metal—Semiconductor thermoelectric coolersIEEE Transactions on Electron Devices, 1980
- Thermal performance and limitations of silicon–substrate packaged GaAs laser arraysApplied Optics, 1978
- Three Dimensional Thermal Problems of Double-Heterostructure Semiconductor LasersJapanese Journal of Applied Physics, 1977
- Integrated GaAs-AlGaAs double-heterostructure lasersApplied Physics Letters, 1975
- Thermal resistance of heterostructure lasersJournal of Applied Physics, 1975
- Monolithic integrated InxGa1−xAs Schottky-barrier waveguide photodetectorApplied Physics Letters, 1974
- Proton-implanted optical waveguide detectors in GaAsApplied Physics Letters, 1973
- Optical waveguides in GaAs–AlGaAs epitaxial layersJournal of Applied Physics, 1973
- Thermal conductivity of Ga1−xAlxAs alloysJournal of Applied Physics, 1973