Reduction of absorption loss in asymmetric twin waveguide laser tapers using argon plasma-enhanced quantum-well intermixing

Author

Huang, Yu ; Xia, Fengnian ; Menon, Vinod M. ; Forrest, Stephen R. ; Gokhale, Milind

Author_Institution

Dept. of Electr. Eng., Princeton Univ., NJ, USA

Volume

16

Issue

10

fYear

2004

Firstpage

2221

Lastpage

2223

Abstract

Lasers based on asymmetric twin waveguide integration technology are limited by the necessity of pumping the tapers to avoid absorption losses within this section of the active region. Here, we demonstrate that the threshold current is reduced by argon plasma-enhanced quantum-well intermixing in the taper. Intermixing induces a (57±5) nm wavelength blue shift in the emission peak, accompanied by a <12-nm linewidth broadening of the photoluminescence spectrum, indicating minimal material degradation. The threshold current of a 0.6-mm-long laser is reduced by (18±1)% to (27±1) mA using an intermixed taper as compared to a nonintermixed structure.

Keywords

integrated optics; optical losses; photoluminescence; quantum well lasers; semiconductor quantum wells; spectral line broadening; spectral line shift; waveguide lasers; 26 to 28 mA; Ar; absorption loss; argon plasma; asymmetric twin waveguide; blue shift; inductively coupled plasma; linewidth broadening; material degradation; photoluminescence spectrum; photonic integrated circuits; quantum-well intermixing; twin waveguide integration technology; twin waveguide laser tapers; Absorption; Argon; Laser excitation; Photoluminescence; Plasma materials processing; Plasma waves; Pump lasers; Quantum well lasers; Threshold current; Waveguide lasers;

fLanguage

English

Journal_Title

Photonics Technology Letters, IEEE

Publisher

ieee

ISSN

1041-1135

Type

jour

DOI

10.1109/LPT.2004.834488

Filename

1336883