Nils Gehlich scite author profile

We report on the utilization of a novel Tm:fiber laser source for mid-IR ZnGeP2 (ZGP) optical parametric oscillator (OPO) pumping. The pump laser is built in a master oscillator power-amplifier configuration delivering up to 3.36 W of polarized, diffraction limited output power with 7 ns pulse duration and 4 kHz repetition rate. This corresponds to a peak power of ∼121 kW and a pulse energy of ∼0.84 mJ. With this source, we generated 27.9 kW of total mid-IR peak power in a doubly resonant oscillator (DRO) configuration. This is, to the best of our knowledge, the highest ever demonstrated mid-IR peak power from a directly Tm:fiber laser pumped ZGP OPO. Moreover, a DRO output with about 284 μJ of total mid-IR pulse energy was demonstrated using 100 ns pump pulses. The wavelength tuning of the idler was extended to 6 μm with lower output power in another OPO experiment.

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Laser cutting of bone tissue under bulk water with a pulsed ps-laser at 532 nm

Tulea

Caron

Gehlich

et al. 2015

J. Biomed. Opt

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Hard-tissue ablation was already investigated for a broad variety of pulsed laser systems, which cover almost the entire range of available wavelengths and pulse parameters. Most effective in hard-tissue ablation are Er:YAG and CO2 lasers, both utilizing the effect of absorption of infrared wavelengths by water and so-called explosive vaporization, when a thin water film or water–air spray is supplied. The typical flow rates and the water layer thicknesses are too low for surgical applications where bleeding occurs and wound flushing is necessary. We studied a 20 W ps-laser with 532 nm wavelength and a pulse energy of 1 mJ to effectively ablate bones that are submerged 14 mm under water. For these laser parameters, the plasma-mediated ablation mechanism is dominant. Simulations based on the blow-off model predict the cut depth and cross-sectional shape of the incision. The model is modified considering the cross section of the Gaussian beam, the incident angle, and reflections. The ablation rate amounts to 0.2 mm3/s, corresponding to an increase by at least 50% of the highest values published so far for ultrashort laser ablation of hard tissue.

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Highly efficient nonthermal ablation of bone under bulk water with a frequency-doubled Nd:YVO₄picosecond laser

Tulea

Caron

Wahab

et al. 2013

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Several laser systems in the infrared wavelength range, such as Nd:YAG, Er:YAG or CO 2 lasers are used for efficient ablation of bone tissue. Here the application of short pulses in coaction with a thin water film results in reduced thermal side effects. Nonetheless up to now there is no laser-process for bone cutting in a clinical environment due to lack of ablation efficiency. Investigations of laser ablation rates of bone tissue using a rinsing system and concerning bleedings have not been reported yet. In our study we investigated the ablation rates of bovine cortical bone tissue, placed 1.5 cm deep in water under laminar flow conditions, using a short pulsed (25 ps), frequency doubled (532 nm) Nd:YVO 4 laser with pulse energies of 1 mJ at 20 kHz repetition rate. The enhancement of the ablation rate due to debris removal by an additional water flow from a well-directed blast pipe as well as the negative effect of the admixture of bovine serum albumin to the water were examined. Optical Coherence Tomography (OCT) was used to measure the ablated volume. An experimental study of the depth dependence of the ablation rate confirms a simplified theoretical prediction regarding Beer-Lambert law, Fresnel reflection and a Gaussian beam profile. Conducting precise incisions with widths less than 1.5 mm the maximum ablation rate was found to be 0.2 mm 3 /s. At depths lower than 100 µm, while the maximum depth was 3.5 mm.

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Principles and applications of trans-wafer processing using a 2-μm thulium fiber laser

Mingareev

Gehlich

Bonhoff

et al. 2015

Int J Adv Manuf Technol

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Nils Gehlich

High peak-power mid-infrared ZnGeP_2 optical parametric oscillator pumped by a Tm:fiber master oscillator power amplifier system

Laser cutting of bone tissue under bulk water with a pulsed ps-laser at 532 nm

Highly efficient nonthermal ablation of bone under bulk water with a frequency-doubled Nd:YVO₄picosecond laser

Principles and applications of trans-wafer processing using a 2-μm thulium fiber laser

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Nils Gehlich

High peak-power mid-infrared ZnGeP_2 optical parametric oscillator pumped by a Tm:fiber master oscillator power amplifier system

Laser cutting of bone tissue under bulk water with a pulsed ps-laser at 532 nm

Highly efficient nonthermal ablation of bone under bulk water with a frequency-doubled Nd:YVO4picosecond laser

Principles and applications of trans-wafer processing using a 2-μm thulium fiber laser

Contact Info

Product

Resources

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Highly efficient nonthermal ablation of bone under bulk water with a frequency-doubled Nd:YVO₄picosecond laser