Defining the optimal gradient doped Yb3+:YAG disk for room and low temperature diode pumped solid-state laser operations

J. C. Chanteloup; M. Arzakantsyan; S. Marrazzo

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Defining the optimal gradient doped Yb3+:YAG disk for room and low temperature diode pumped solid-state laser operations

High Power Laser Science and Engineering (2014) 2

DOI: 10.1017/hpl.2014.38

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Abstract

We propose a general methodology to define the optimum doping ion volume distribution required for an efficient solid-state laser amplifier. This approach is illustrated in the context of two experimental diode pumped Yb:YAG amplifiers operating at 300 and 160 K. Processing of such tailored gain media is now possible through horizontal direct crystallization.

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Chanteloup, J. C., Arzakantsyan, M., & Marrazzo, S. (2014). Defining the optimal gradient doped Yb3+:YAG disk for room and low temperature diode pumped solid-state laser operations. High Power Laser Science and Engineering, 2. https://doi.org/10.1017/hpl.2014.38

Defining the optimal gradient doped Yb3+:YAG disk for room and low temperature diode pumped solid-state laser operations

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