Small electrically pumped index-guided vertical-cavity lasers

Author

Peters, F.H. ; Robinson, G.D. ; Peters, M.G. ; Young, D.B. ; Coldren, L.A.

Author_Institution

Opt. Concepts Inc., Lompoc, CA, USA

Volume

6

Issue

10

fYear

1994

Firstpage

1176

Lastpage

1178

Abstract

High-yield, reliable electrically pumped index-guided vertical cavity lasers with diameters less than 4 microns have been fabricated using low resistance, alloyed, ring contact metallization. Existing metallization schemes used for bottom emitting vertical cavity lasers (VCLs) tend to be highly resistive, since the top metallization layer serves the dual purpose of mirror and electrical contact. This results in acceptable performance for large diameter devices, but poor performance for smaller devices that operate at higher current densities. Low resistance alloyed ring contacts have been developed for small bottom emitting VCLs that maintain the required optical properties while dramatically improving the electrical properties.<>

Keywords

III-V semiconductors; current density; gallium arsenide; indium compounds; laser cavity resonators; metallisation; semiconductor lasers; InGaAs; InGaAs QW lasers; MBE growth; alloyed; bottom emitting vertical cavity lasers; current densities; electrical contact; electrical properties; electrically pumped; high-yield; highly resistive; large diameter devices; low resistance; mirror; optical properties; poor performance; ring contact metallization; small bottom emitting VCLs; small electrically pumped index-guided vertical-cavity lasers; top metallization layer; Contact resistance; Current density; Electric resistance; Laser excitation; Metallization; Mirrors; Pump lasers; Ring lasers; Stimulated emission; Vertical cavity surface emitting lasers;

fLanguage

English

Journal_Title

Photonics Technology Letters, IEEE

Publisher

ieee

ISSN

1041-1135

Type

jour

DOI

10.1109/68.329630

Filename

329630