Average power of 1.1 kW from spectrally combined, fiber-amplified, nanosecond-pulsed sources

Spectral beam combination of fiber amplified ns-pulses by means of interference filters

Schmidt, O.
Wirth, C.
Nodop, D.
Limpert, J.
Schreiber, T.
Peschel, T.
Eberhardt, R.
Tünnermann, A.

January 2009

In this paper we introduce a simple scheme to spectrally combine four single beams using three low-c...

Spectral combining of fiber amplified pulsed diode lasers

Klingebiel, S.
Ortac, B.
Röser, F.
Schmidt, O.
Limpert, J.
Tünnermann, A.

January 2007

Fiber lasers have been established as power-scalable laser architecture. Continuous-wave output powe...

High-energy nanosecond all-fiber Yb-doped amplifier

Zhou, Cuiyun
Liu, Yuan
Zhu, Ren
Du, Songtao
Hou, Xia
Chen, Weibiao

January 2013

We demonstrate a high-energy, low-repetition-rate, all-fiber, 1064-nm Yb-doped fiber laser based on ...

1.1 kW nanosecond fiber amplifier based on spectral beam combination

Schmidt, O.
Wirth, C.
Tsybin, I.
Schreiber, T.
Eberhardt, R.
Limpert, J.
Tünnermann, A.

January 2009

High average power and high repetition-rate nanosecond pulsed lasers with considerable pulse paramet...

200W average power 1mJ pulse energy from spectrally combined pulsed sub-5 ns fiber laser source

Schmidt, O.
Ortac, B.
Limpert, J.
Tünnermann, A.
Andersen, T.V.

January 2009

In this contribution, we report on spectral combination of four sub-5ns pulsed fiber amplifier syste...

187 W, 3.7 mJ from spectrally combined pulsed 2 ns fiber amplifiers

Schmidt, O.
Andersen, T.V.
Limpert, J.
Tünnermann, A.

January 2009

We report on a spectral combination of four 2 ns pulsed fiber amplifier systems to a total output po...

Spectral combining of pulsed fiber lasers: Scaling considerations

Schmidt, O.
Klingebiel, S.
Ortac, B.
Röser, F.
Brückner, F.
Clausnitzer, T.
Kley, E.-B.
Limpert, J.
Tünnermann, A.

January 2008

We show spectral combination of pulsed fiber laser systems for the first time to our knowledge. In t...

Incoherent beam combining of continuous-wave and pulsed Yb-doped fiber amplifiers

Schreiber, T.
Wirth, C.
Schmidt, O.
Andersen, T.V.
Tsybin, I.
Böhme, S.
Peschel, T.
Brückner, F.
Clausnitzer, T.
Röser, F.
Eberhardt, R.
Limpert, J.
Tünnermann, A.

January 2009

We review the technique of incoherent beam combining and show experimentally the combination of four...

High average power spectral beam combining of four fiber amplifiers to 8.2 kW

Wirth, C.
Schmidt, O.
Tsybin, I.
Schreiber, T.
Eberhardt, R.
Limpert, J.
Tünnermann, A.
Ludewigt, K.
Gowin, M.
Have, E. ten
Jung, M.

January 2011

We report on the incoherent beam combination of the four narrow-linewidth fiber amplifier chains run...

High-peak-power nanosecond pulse generation by stimulated Brillouin scattering pulse compression in a seeded Yb-doped fiber amplifier

Laroche, Mathieu
Gilles, Hervé
Girard, Sylvain

January 2011

International audienceWe demonstrate the generation of nanosecond and multikilowatt peak-power pulse...

Power Scaling of Ultrashort Pulses by Spatial and Temporal Coherent Combining

Kienel, M.

January 2017

Ytterbium-doped solid-state lasers are versatile tools for the generation of intense ultrashort puls...

Spectral beam combining of Yb-doped fiber lasers with high efficiency

Klingebiel, S.
Roser, F.
Ortac, B.
Limpert, J.
Tünnermann, A.

January 2007

Spectral beam combining is a power scaling concept for fiber lasers, where several individual laser ...

Spectral beam combining of high power fiber lasers

Schreiber, T.
Haarlammert, N.
Eberhardt, R.
Tünnermann, A.

January 2012

We review the technique of spectral beam combining and discuss detailed limitations in the laser sys...

208-W average power and 6.3-mJ pulse energy from four spectrally combined fiber amplified Q-switched nanosecond laser sources using low-cost interference filter

Schmidt, O.
Wirth, C.
Nodop, D.
Limpert, J.
Tünnermann, A.
Schreiber, T.
Eberhardt, R.

January 2010

In this contribution we introduce a simple scheme to spectrally combine four single beams using thre...

High brightness spectral beam combining to 8.2 kW

Ludewigt, K.
Gowin, M.
Have, E. ten
Jung, M.
Wirth, C.
Schmidt, O.
Tsybin, I.
Schreiber, T.
Eberhardt, R.
Limpert, J.
Tünnermann, A.

January 2011

We report on the spectral beam combining of four narrow-linewidth fiber amplifier chains running at ...

Spectral beam combination of fiber amplified ns-pulses by means of interference filters

Schmidt, O.
Wirth, C.
Nodop, D.
Limpert, J.
Schreiber, T.
Peschel, T.
Eberhardt, R.
Tünnermann, A.

January 2009

In this paper we introduce a simple scheme to spectrally combine four single beams using three low-c...

Spectral combining of fiber amplified pulsed diode lasers

Klingebiel, S.
Ortac, B.
Röser, F.
Schmidt, O.
Limpert, J.
Tünnermann, A.

January 2007

Fiber lasers have been established as power-scalable laser architecture. Continuous-wave output powe...

High-energy nanosecond all-fiber Yb-doped amplifier

Zhou, Cuiyun
Liu, Yuan
Zhu, Ren
Du, Songtao
Hou, Xia
Chen, Weibiao

January 2013

We demonstrate a high-energy, low-repetition-rate, all-fiber, 1064-nm Yb-doped fiber laser based on ...

1.1 kW nanosecond fiber amplifier based on spectral beam combination

Schmidt, O.
Wirth, C.
Tsybin, I.
Schreiber, T.
Eberhardt, R.
Limpert, J.
Tünnermann, A.

January 2009

High average power and high repetition-rate nanosecond pulsed lasers with considerable pulse paramet...

200W average power 1mJ pulse energy from spectrally combined pulsed sub-5 ns fiber laser source

Schmidt, O.
Ortac, B.
Limpert, J.
Tünnermann, A.
Andersen, T.V.

January 2009

In this contribution, we report on spectral combination of four sub-5ns pulsed fiber amplifier syste...

187 W, 3.7 mJ from spectrally combined pulsed 2 ns fiber amplifiers

Schmidt, O.
Andersen, T.V.
Limpert, J.
Tünnermann, A.

January 2009

We report on a spectral combination of four 2 ns pulsed fiber amplifier systems to a total output po...

Spectral combining of pulsed fiber lasers: Scaling considerations

Schmidt, O.
Klingebiel, S.
Ortac, B.
Röser, F.
Brückner, F.
Clausnitzer, T.
Kley, E.-B.
Limpert, J.
Tünnermann, A.

January 2008

We show spectral combination of pulsed fiber laser systems for the first time to our knowledge. In t...

Incoherent beam combining of continuous-wave and pulsed Yb-doped fiber amplifiers

Schreiber, T.
Wirth, C.
Schmidt, O.
Andersen, T.V.
Tsybin, I.
Böhme, S.
Peschel, T.
Brückner, F.
Clausnitzer, T.
Röser, F.
Eberhardt, R.
Limpert, J.
Tünnermann, A.

January 2009

We review the technique of incoherent beam combining and show experimentally the combination of four...

High average power spectral beam combining of four fiber amplifiers to 8.2 kW

Wirth, C.
Schmidt, O.
Tsybin, I.
Schreiber, T.
Eberhardt, R.
Limpert, J.
Tünnermann, A.
Ludewigt, K.
Gowin, M.
Have, E. ten
Jung, M.

January 2011

We report on the incoherent beam combination of the four narrow-linewidth fiber amplifier chains run...

High-peak-power nanosecond pulse generation by stimulated Brillouin scattering pulse compression in a seeded Yb-doped fiber amplifier

Laroche, Mathieu
Gilles, Hervé
Girard, Sylvain

January 2011

International audienceWe demonstrate the generation of nanosecond and multikilowatt peak-power pulse...

Power Scaling of Ultrashort Pulses by Spatial and Temporal Coherent Combining

Kienel, M.

January 2017

Ytterbium-doped solid-state lasers are versatile tools for the generation of intense ultrashort puls...

Spectral beam combining of Yb-doped fiber lasers with high efficiency

Klingebiel, S.
Roser, F.
Ortac, B.
Limpert, J.
Tünnermann, A.

January 2007

Spectral beam combining is a power scaling concept for fiber lasers, where several individual laser ...

Spectral beam combining of high power fiber lasers

Schreiber, T.
Haarlammert, N.
Eberhardt, R.
Tünnermann, A.

January 2012

We review the technique of spectral beam combining and discuss detailed limitations in the laser sys...

208-W average power and 6.3-mJ pulse energy from four spectrally combined fiber amplified Q-switched nanosecond laser sources using low-cost interference filter

Schmidt, O.
Wirth, C.
Nodop, D.
Limpert, J.
Tünnermann, A.
Schreiber, T.
Eberhardt, R.

January 2010

In this contribution we introduce a simple scheme to spectrally combine four single beams using thre...

High brightness spectral beam combining to 8.2 kW

Ludewigt, K.
Gowin, M.
Have, E. ten
Jung, M.
Wirth, C.
Schmidt, O.
Tsybin, I.
Schreiber, T.
Eberhardt, R.
Limpert, J.
Tünnermann, A.

January 2011

We report on the spectral beam combining of four narrow-linewidth fiber amplifier chains running at ...

Spectral beam combination of fiber amplified ns-pulses by means of interference filters

Schmidt, O.
Wirth, C.
Nodop, D.
Limpert, J.
Schreiber, T.
Peschel, T.
Eberhardt, R.
Tünnermann, A.

January 2009

In this paper we introduce a simple scheme to spectrally combine four single beams using three low-c...

Spectral combining of fiber amplified pulsed diode lasers

Klingebiel, S.
Ortac, B.
Röser, F.
Schmidt, O.
Limpert, J.
Tünnermann, A.

January 2007

Fiber lasers have been established as power-scalable laser architecture. Continuous-wave output powe...

High-energy nanosecond all-fiber Yb-doped amplifier

Zhou, Cuiyun
Liu, Yuan
Zhu, Ren
Du, Songtao
Hou, Xia
Chen, Weibiao

January 2013

We demonstrate a high-energy, low-repetition-rate, all-fiber, 1064-nm Yb-doped fiber laser based on ...

Average power of 1.1 kW from spectrally combined, fiber-amplified, nanosecond-pulsed sources

Abstract

Extracted data

Average power of 1.1 kW from spectrally combined, fiber-amplified, nanosecond-pulsed sources

Abstract

Extracted data

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