Title :
The effect of temperature dependent processes on the performance of 1.5-μm compressively strained InGaAs(P) MQW semiconductor diode lasers
Author :
Sweeney, S.J. ; Phillips, A.F. ; Adams, A.R. ; O´Reilly, E.P. ; Thijs, P.J.A.
Author_Institution :
Dept. of Phys., Surrey Univ., Guildford, UK
Abstract :
We describe measurements of the threshold current I/sub th/ and spontaneous emission characteristics of InGaAs (P)-based 1.5-μm compressively strained multiple-quantum-well semiconductor lasers from 90 K to above room temperature. We show that below a break-point temperature, T/sub B//spl ap/130 K, I/sub th/ and its temperature dependence are governed by the radiative current. Above this temperature, a thermally activated Auger recombination process becomes the dominant recombination mechanism responsible for both I/sub th/ and its temperature sensitivity. At room temperature nonradiative Auger recombination is found to account for approximately 80% of the threshold current in these devices.
Keywords :
Auger effect; III-V semiconductors; electron-hole recombination; gallium arsenide; gallium compounds; indium compounds; infrared sources; laser transitions; quantum well lasers; semiconductor device models; spontaneous emission; 1.5 mum; 1.5-/spl mu/m compressively strained InGaAsP MQW semiconductor diode lasers; 90 K; InGaAsP; break-point temperature; dominant recombination mechanism; multiple-quantum-well semiconductor lasers; nonradiative Auger recombination; radiative current; room temperature; spontaneous emission characteristics; temperature dependence; temperature dependent processes; temperature sensitivity; thermally activated Auger recombination process; threshold current; Fiber lasers; Quantum well devices; Quantum well lasers; Radiative recombination; Semiconductor diodes; Semiconductor lasers; Spontaneous emission; Temperature dependence; Temperature sensors; Threshold current;
Journal_Title :
Photonics Technology Letters, IEEE
