High power diode laser for future applications

High power diode laser for future applications

High power diode lasers went a long way from the 10 W or 20 W model of the early 90s to the 100 W, 150 W or even 200 W types of today. This was possible by improving both the efficiency of the semiconductor material by about 1/3 to 70% and the heat removal capability of the heat sinks used. We arriv...

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Bibliographische Detailangaben
Hauptverfasser: Wolff, D., Schroder, D., Deichsel, E., Hennig, P.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Bars
Cooling
Diode lasers
Heat sinks
Laser excitation
Optical materials
Optical pulse generation
Optical pulses
Solid lasers
Voltage
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Beschreibung
Zusammenfassung:High power diode lasers went a long way from the 10 W or 20 W model of the early 90s to the 100 W, 150 W or even 200 W types of today. This was possible by improving both the efficiency of the semiconductor material by about 1/3 to 70% and the heat removal capability of the heat sinks used. We arrived at diode lasers which need 150 A or more and require a more and more refined cooling setup, especially if a rather stable wavelength is required. A further ramp-up of power would only benefit fewer and fewer applications as many of them need just 40 W or less from a diode laser.
ISSN:2379-0385
2379-0393
DOI:10.1109/HPD.2009.5364510