Litcius/Paper detail

High Efficiency 1.9 Kw Single Diode Laser Bar Epitaxially Stacked With a Tunnel Junction

Yuliang Zhao, Zhenfu Wang, Abdullah Demir, Guowen Yang, Shufang Ma, Bingshe Xu, C. T. Sun, Te Li, Bocang Qiu

2021IEEE photonics journal22 citationsDOIOpen Access PDF

Abstract

We report on the development of a 940-nm diode laser bar based on epitaxially stacked active regions by employing a tunnel junction structure. The tunnel junction and the device parameters were systematically optimized to achieve high output and power conversion efficiency. A record quasi-continuous wave (QCW) peak power of 1.91 kW at 25 °C was demonstrated from a 1-cm wide bar with a 2-mm cavity length at 1 kA drive current (200 μs pulse width and 10 Hz repetition rate). Below the onset of the thermal rollover, the slope efficiency was as high as 2.23 W/A. The maximum power conversion efficiency of 61.1% at 25 °C was measured at 300 A. Reducing the heatsink temperature to 15 °C led to a marginal increase in the peak power to 1.95 kW.

Topics & Concepts

Materials scienceEnergy conversion efficiencySlope efficiencyDiodeOptoelectronicsHeat sinkLaserBar (unit)Semiconductor laser theoryJunction temperatureContinuous waveEpitaxyPower (physics)OpticsElectrical engineeringFiber laserPhysicsComposite materialMeteorologyLayer (electronics)WavelengthEngineeringQuantum mechanicsSolid State Laser TechnologiesSemiconductor Quantum Structures and DevicesSpectroscopy and Laser Applications