Long wavelength PbSnTe lasers with CW operation above 77 K
Abstract
Lead tin telluride diode lasers with emission wavelengths of 6 to 9 micrometers easily operate continuously at temperatures above 77K. These lasers have the Pb(1-y) Sn(y) TE/Pb(1-y) Te/Pb(1-y) Sn(y) Te/PbTe (substrate), (x y) double heterostructure. To prepare this structure by LPE, the growth temperature must be below 600 C to suppress diffusion of the tin during the epitaxial growth. When the heterojunctions are formed by the usual LPE method, the junction boundaries become irregular in the case for the lasers with wavelengths of over 10 micrometers at 77K. The mechanism by which the heterojunction boundaries become irregular is cleared and a new LPE method which prevents the irregularity is explained. The lasers prepared from the wafers grown by the new method have demonstrated CW operation at wavelengths longer than 10 micrometers above liquid nitrogen temperature.
- Publication:
-
Heterodyne Systems and Technolology
- Pub Date:
- August 1980
- Bibcode:
- 1980hst..rept...45S
- Keywords:
-
- Continuous Wave Lasers;
- Crystal Structure;
- Heterojunction Devices;
- Junction Diodes;
- Lead Tellurides;
- Crystal Growth;
- Epitaxy;
- Laser Outputs;
- Liquid Phases;
- Operating Temperature;
- Semiconductor Lasers;
- Lasers and Masers