Jöerg Koerner scite author profile

Jöerg Koerner

5Publications

96Citation Statements Received

70Citation Statements Given

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Affiliations

Czech Academy of Sciences, Institute of Physics, Friedrich Schiller University Jena, Max Planck Institute of Quantum Optics

Publications

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Measurement of temperature-dependent absorption and emission spectra of Yb:YAG, Yb:LuAG, and Yb:CaF_2 between 20 °C and 200 °C and predictions on their influence on laser performance

et al. 2012

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Accurate values of the emission and absorption cross sections of Yb:YAG, Yb:LuAG, and Yb:CaF 2 as a function of temperature between room temperature and 200°C are presented. For this purpose, absorption and fluorescence spectra were measured using a setup optimized to reduce the effect of radiation trapping. From these data, emission cross sections were retrieved by combining the Fuchtbauer-Ladenburg equation and the reciprocity method. Based on our measurements, simple estimations illustrate the effect of temperature shifts that are likely to occur in typical laser setups. Our results show that even minor temperature variations can have significant impact on the laser performance using Yb:YAG and Yb:LuAG as an active medium, while Yb:CaF 2 appears to be rather insensitive.

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High-efficiency, room-temperature nanosecond Yb:YAG laser

Siebold¹,

Loeser²,

Schramm³

et al. 2009

Opt. Express

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Yb(3+)-doped gain media offer favorable properties for diode-pumped laser amplifiers for high-energy ns-pulses. To reach high optical-to-optical conversion efficiencies at room temperature however, very high and often impractical fluences are required both for pumping and extraction. Low temperature operation offers a solution, but the required cryogenic cooling systems add considerable complexity, bulkiness and cost. Multi-passing both pump and extraction beams through the gain medium is an alternative approach to overcome efficiency limitations at room temperature. In this article we present numerical and experimental results to this effect.We demonstrated ns-pulse output from a diode-pumped Yb:YAG amplifier at an energy of 566 mJ and an optical-to-optical efficiency of 20%, which is almost a doubling of the efficiency achieved with ns-lasers employing Yb(3+)-doped gain media at this energy level.

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HiLASE cryogenically-cooled diode-pumped laser prototype for inertial fusion energy

Lucianetti

Divoký

Sawicka

et al. 2013

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Spectroscopic characterization of various Yb³⁺doped laser materials at cryogenic temperatures for the development of high energy class diode pumped solid state lasers

Jambunathan

Koerner

Sikocinski

et al. 2013

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Temperature dependent emission and absorption cross section of Yb^3+ doped yttrium lanthanum oxide (YLO) ceramic and its application in diode pumped amplifier

Banerjee¹,

Koerner²,

Siebold³

et al. 2013

Opt. Express

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Temperature dependent absorption and emission cross-sections of 5 at% Yb(3+) doped yttrium lanthanum oxide (Yb:YLO) ceramic between 80K and 300 K are presented. In addition, we report on the first demonstration of ns pulse amplification in Yb:YLO ceramic. A pulse energy of 102 mJ was extracted from a multi-pass amplifier setup. The amplification bandwidth at room temperature confirms the potential of Yb:YLO ceramic for broad bandwidth amplification at cryogenic temperatures.

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Jöerg Koerner

Measurement of temperature-dependent absorption and emission spectra of Yb:YAG, Yb:LuAG, and Yb:CaF_2 between 20 °C and 200 °C and predictions on their influence on laser performance

High-efficiency, room-temperature nanosecond Yb:YAG laser

HiLASE cryogenically-cooled diode-pumped laser prototype for inertial fusion energy

Spectroscopic characterization of various Yb³⁺doped laser materials at cryogenic temperatures for the development of high energy class diode pumped solid state lasers

Temperature dependent emission and absorption cross section of Yb^3+ doped yttrium lanthanum oxide (YLO) ceramic and its application in diode pumped amplifier

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About

Jöerg Koerner

Measurement of temperature-dependent absorption and emission spectra of Yb:YAG, Yb:LuAG, and Yb:CaF_2 between 20 °C and 200 °C and predictions on their influence on laser performance

High-efficiency, room-temperature nanosecond Yb:YAG laser

HiLASE cryogenically-cooled diode-pumped laser prototype for inertial fusion energy

Spectroscopic characterization of various Yb3+doped laser materials at cryogenic temperatures for the development of high energy class diode pumped solid state lasers

Temperature dependent emission and absorption cross section of Yb^3+ doped yttrium lanthanum oxide (YLO) ceramic and its application in diode pumped amplifier

Contact Info

Product

Resources

About

Spectroscopic characterization of various Yb³⁺doped laser materials at cryogenic temperatures for the development of high energy class diode pumped solid state lasers