Title :
Long-wavelength PbSnTe-PbTeSe lattice-matched single-heterestructure lasers grown by LPE
Author :
Zussman, A. ; Eger, D. ; Oron, M. ; Szapiro, S. ; Shachna, A. ; Hans, B.
Author_Institution :
Soreq Nuclear Research Centre, Physics Department, Yavne, Israel
fDate :
12/1/1982 12:00:00 AM
Abstract :
Properties of Pb1 ¿ xSnxTe-PbTe1¿ySey lattice-matched single-heterostructure (SH) diode lasers grown on Pb1 ¿ xSnxTe substrates by liquid-phase epitaxy were studied for various compositions in the range 0.13<x<0.24, which corresponds to a wavelength range of 12 ¿m to 18.5 ¿m (at T = 20K). Threshold current density Jth was measured as a function of temperature from 10K to 140K, and was found to be comparable to that observed previously in PbSnTe-PbTeSe and PbSnTeSe-PbTeSe DH lasers. An external differential quantum efficiency of 1¿2% was measured in these lasers. The emission spectra of the SH lasers frequently show a single-mode structure for J<2Jth at high temperatures. Measurements of I/V characteristics carried out in these lasers suggest that tunnelling currents contribute significantly to the observed threshold current density. At high temperatures, characteristic temperatures To in the range 16.5 to 21 K were measured.
Keywords :
IV-VI semiconductors; lead compounds; liquid phase epitaxial growth; semiconductor growth; semiconductor junction lasers; tellurium compounds; tin compounds; 1.2 to 18.5 micron wavelength range; 10K to 140K; I/V characteristics; LPE; Pb1-xSnxTe-PbTe1-ySey; PbSnTe-PbTeSe; SH lasers; diode lasers; emission spectra; external differential quantum efficiency; lattice-matched single-heterostructure lasers; liquid-phase epitaxy; semiconductor laser; single-mode structure; threshold current density; tunneling currents;
Journal_Title :
Solid-State and Electron Devices, IEE Proceedings I
Conference_Location :
12/1/1982 12:00:00 AM
DOI :
10.1049/ip-i-1.1982.0047
