Jason Patterson scite author profile

Peak optical power from single 1-cm diode laser bars is advancing rapidly across all commercial wavelengths. Progress in material performance is reviewed and we show that current trends imply there is no fundamental barrier to achieving peak powers of 1-kW per 1-cm diode laser bar. For bars with such high peak powers, commercially available reliable devices would be expected to deliver ~ 300-W per bar. Progress to date has allowed us to demonstrate > 400-W peak output from single 1-cm diode laser bars at emission wavelengths from 800-nm to 980-nm. The available range of emission wavelengths has also been increased, with 90-W bars shown at 660-nm and 24W at 1900-nm, complementing the 100-W bar previously demonstrated at 1470-nm. Peak power is seen to correlate closely peak efficiency. Further advances in diode laser efficiency and low thermal resistance packaging technology continue to drive these powers higher. The most critical improvements have been the reduction in the diode laser operating voltage through optimization of hetero-barriers (leading to 73% efficient 100-W bars on copper micro-channel) and a reduction in packaging thermal resistance by optimizing micro-channel performance (leading to < 0.2-°C/W thermal resistance).

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Diode laser bars deliver > 400-W peak CW power from 800-nm to 980-nm enabling wide range of applications

Crump

Patterson

Wang

et al. 2006

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Extending the wavelength range of single-emitter diode lasers for medical and sensing applications: 12xx-nm quantum dots, 2000-nm wells, > 5000-nm cascade lasers

Crump

Patterson

Elim

et al. 2007

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Diode lasers supply high power densities at wavelengths from 635-nm to 2000-nm, with different applications enabled by providing this power at different wavelengths. As the range of available wavelengths broadens, many novel medical and atmospheric applications are enabled. Traditional quantum well lasers provide high performance in the range 635-nm to 1100-nm range for GaAs-based devices and 1280-nm to 2000-nm for InP, leaving a notable gaps from 1100 to 1280-nm, and above 1500-nm. There are many important medical and sensing applications in the 12xx-nm range and quantum dots produced using Stranski-Krastanow self-organized MBE growth on GaAs substrates provide an alternative high performance solution. We present results confirming broad area quantum dot lasers can deliver high optical powers of 16-W per emitter and high power conversion efficiency of 35% in this wavelength range. In addition, there are growing applications for high power sources in wavelengths > 1500-nm. We present a brief review of our current performance status in this wavelength range, both with conventional quantum wells in the 1500-nm to 2500-nm range and MOCVD grown quantum cascade lasers for wavelengths > 4000-nm. At each wavelength, we review the designs that deliver this performance, prospects for increased performance and the potential for further broadening the availability of novel wavelengths for high power applications.

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Room temperature high power mid-IR diode laser bars for atmospheric sensing applications

Crump

Patterson

Dong

et al. 2007

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Jason Patterson

100-W+ diode laser bars show > 71% power conversion from 790- nm to 1000-nm and have clear route to > 85%

Diode laser efficiency increases enable >400-W peak power from 1-cm bars and shows clear path to peak powers in excess of 1-kW

Diode laser bars deliver > 400-W peak CW power from 800-nm to 980-nm enabling wide range of applications

Extending the wavelength range of single-emitter diode lasers for medical and sensing applications: 12xx-nm quantum dots, 2000-nm wells, > 5000-nm cascade lasers

Room temperature high power mid-IR diode laser bars for atmospheric sensing applications

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