Tino Elsmann scite author profile

We present a femtosecond laser system delivering up to 100 W of average power at 343 nm. The laser system employs a Yb-based femtosecond fiber laser and subsequent second- and third-harmonic generation in beta barium borate (BBO) crystals. Thermal gradients within these BBO crystals are mitigated by sapphire heat spreaders directly bonded to the front and back surface of the crystals. Thus, a nearly diffraction-limited beam quality (M2 < 1.4) is achieved, despite the high thermal load to the nonlinear crystals. This laser source is expected to push many industrial and scientific applications in the future.

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High temperature sensing with fiber Bragg gratings in sapphire-derived all-glass optical fibers

Elsmann

Lorenz

Yazd

et al. 2014

Opt. Express

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A structured sapphire-derived all-glass optical fiber with an aluminum content in the core of up to 50 mol% was used for fiber Bragg grating inscription. The fiber provided a parabolic refractive index profile. Fiber Bragg gratings were inscribed by means of femtosecond-laser pulses with a wavelength of 400 nm in combination with a two-beam phase mask interferometer. Heating experiments demonstrated the stability of the gratings for temperatures up to 950°C for more than 24 h without degradation in reflectivity.

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High-Temperature Strain Sensing Using Sapphire Fibers With Inscribed First-Order Bragg Gratings

et al. 2016

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Tino Elsmann

Sapphire fiber Bragg gratings for high temperature and dynamic temperature diagnostics

Inscription of first-order sapphire Bragg gratings using 400 nm femtosecond laser radiation

100 W average power femtosecond laser at 343 nm

High temperature sensing with fiber Bragg gratings in sapphire-derived all-glass optical fibers

High-Temperature Strain Sensing Using Sapphire Fibers With Inscribed First-Order Bragg Gratings

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