Your search keyword '"Zbyněk Hubka"' showing total 18 results

1. Upgrades of L1 Allegra Laser at ELI-Beamlines Facility for the Extended User Experiment Capabilities

Author

Roman Antipenkov, Emily Erdman, Jakub Novák, Robert Boge, Zbyněk Hubka, Jonathan Tyler Green, Alexander Špaček, Lukáš Indra, Wojciech Szuba, Annika Grenfell, Boguslaw Tykalewicz, Václav Šobr, Murat Torun, Petr Mazůrek, Jack Alexander Naylon, Pavel Bakule, and Bedřich Rus

Abstract

We report on the performance improvements of the L1 Allegra laser system. The pump laser upgrade with the thin-disk multipass amplifier allows for the energy ramp-up, while a newly developed synchronized auxiliary laser system provides the capability of the pump-probe experiments at arbitrary delays.

Published

2022

2. 120 mJ, 1 kHz, picosecond laser at 515 nm

Author

Murat Torun, Michael Greco, Roman Antipenkov, Karel Majer, Bedřich Rus, Boguslaw Tykalewicz, Robert Boge, Jack A. Naylon, Petr Strkula, Tomáš Mazanec, Petr Mazůrek, Pavel Bakule, Jakub Novák, Zbyněk Hubka, Martin Horáček, Emily Erdman, Jonathan T. Green, and Václav Šobr

Subjects

Chirped pulse amplification, Amplified spontaneous emission, Materials science, Picosecond laser, business.industry, Laser, Atomic and Molecular Physics, and Optics, law.invention, Power (physics), Crystal, Optics, Regenerative amplification, law, Picosecond, business

Abstract

We report on a 1 kHz, 515 nm laser system, based on a commercially available 230 W average power Yb:YAG thin-disk regenerative amplifier, developed for pumping one of the last optical parametric chirped pulse amplification (OPCPA) stages of the Allegra laser system at ELI Beamlines. To avoid problems with self-focusing of picosecond pulses, the 1030 nm output pulses are compressed and frequency doubled with an LBO crystal in vacuum. Additionally, development of a thermal management system was needed to ensure stable phase matching conditions at high average power. The resulting 515 nm pulses have an energy of more than 120 mJ with SHG efficiency of 60% and an average RMS stability of 1.1% for more than 8 h.

Published

2021

3. Optimization of pump lasers for high-energy OPCPA system

Author

Murat Torun, Martin Horáček, Alexandr Špaček, Boguslaw Tykalewicz, Robert Boge, Jonathan T. Green, Roman Antipenkov, Jack A. Naylon, Petr Mazurek, Jakub Novák, Pavel Bakule, Zbyněk Hubka, Karel Majer, and Bedřich Rus

Subjects

Materials science, Chirped mirror, business.industry, Amplifier, Physics::Optics, Second-harmonic generation, Pulse duration, Self-focusing, Laser pumping, Laser, law.invention, Optics, law, Pulse compression, business

Abstract

The L1 Allegra is an OPCPA-based, high average power, high repetition rate laser system pumped by thin-disc based regenerative amplifiers currently under development at the ELI-Beamlines center in Czech Republic. The repetition rate is 1 kHz, pulse duration is below 15 fs and the wavelength centered around 820 nm with a maximum design pulse energy of 100 mJ. To avoid problems with self-focusing, a large portion of the system was placed inside vacuum, including the compressors and second-harmonic crystals for the last three 1030 nm pump lasers, the final three OPA stages, and the chirped mirror compressor. In order to reach the designed output energy of the whole system, the pump lasers need to be efficient, stable, and providing enough pump power for each of the amplification stages. Pulse compression of the final three pump lasers as well as efficient conversion to the second harmonic frequency in vacuum has posed several challenges and we report on their solutions and results. The vacuum environment causes difficulties for two main reasons. The first one is laser-induced-contamination (LIC) degrading the optical surfaces of dielectric gratings, mirrors and crystals, due to the presence of degassing components contaminating the vacuum chambers. The second reason is second-harmonic generation crystal mounts heating up, requiring regular phase matching corrections by rotation of the crystal mounts. The LIC problem was solved by regular cleaning of the chambers by means of an RF-plasma source, and the heating problem was solved by implementing active temperature stabilization by means of installing thermo-electric coolers on the crystal holders. To increase the efficiency of the second-harmonic generation, beam profiles of the pump lasers had to be improved. The original Faraday rotators, present in the linearly-designed regenerative amplifiers, caused non-Gaussian beam profiles due to the self focusing inside the rotators. By using KTF crystals inside a new type of rotators, the spatial profile of the pump lasers is more Gaussian, allowing the efficiency of the SHG to be higher, almost by 25%. All the solved problems recently allowed the system to reach a short pulse output energy of 56 mJ, paving a way to reach 100 mJ successfuly in the future.

Published

2021

4. Mitigation of laser-induced contamination in vacuum in high-repetition-rate high-peak-power laser systems

Author

Zbyněk Hubka, Karel Majer, Irena Majerová, Bedřich Rus, Praveen Kumar Velpula, Jonathan T. Green, Jack A. Naylon, Roman Antipenkov, Jakub Novák, Robert Boge, Pavel Bakule, Daniel B. Kramer, and Václav Šobr

Subjects

Materials science, Plasma cleaning, business.industry, Contamination, Laser, 01 natural sciences, Atomic and Molecular Physics, and Optics, Power (physics), law.invention, 010309 optics, Wavelength, Optics, law, 0103 physical sciences, Degradation (geology), Electrical and Electronic Engineering, Absorption (electromagnetic radiation), business, Engineering (miscellaneous), Diffraction grating

Abstract

Vacuum chambers are frequently used in high-energy, high-peak-power laser systems to prevent deleterious nonlinear effects, which can result from propagation in air. In the vacuum sections of the Allegra laser system at ELI-Beamlines, we observed degradation of several optical elements due to laser-induced contamination (LIC). This contamination is present on surfaces with laser intensity above 30 G W / c m 2 with wavelengths of 515, 800, and 1030 nm. It can lead to undesired absorption on diffraction gratings, mirrors, and crystals and ultimately to degradation of the laser beam profile. Because the Allegra laser is intended to be a high-uptime source for users, such progressive degradation is unacceptable for operation. Here, we evaluate three methods of removing LIC from optics in vacuum. One of them, the radio-frequency-generated plasma cleaning, appears to be a suitable solution from the perspective of operating a reliable, on-demand source for users.

Published

2021

5. Readiness of L1 ALLEGRA Laser System for User Operation at ELI Beamlines

Author

Michael Greco, Jonathan T. Green, Zbyněk Hubka, Boguslaw Tykalewicz, Roman Antipenkov, Robert Boge, Petr Mazůrek, Lukáš Indra, Petr Strkula, František Batysta, Emily Erdman, Alexandr Špaček, Tomáš Mazanec, Jack A. Naylon, Karel Majer, Bedřich Rus, Václav Šobr, Jakub Novák, and Pavel Bakule

Subjects

Fiber Bragg grating, High power lasers, business.industry, law, Computer science, Fiber laser, Electrical engineering, Second-harmonic generation, High harmonic generation, business, Laser, law.invention, Pulse (physics)

Abstract

We report on the current state of readiness of the 1 kHz, 15 fs L1 ALLEGRA laser system for long term reliable operation driving user experiments based on HHG. The highly automated system, based on short pulse OPCPA, currently generates pulses with energy of 30 mJ at central wavelength of 820 nm.

Published

2020

6. User-Oriented High-Harmonic Source at ELI Beamlines

Author

Roman Antipenkov, M. Albrecht, S. Sebban, O. Finke, O. Hort, S. Reyne, Pavel Bakule, J. Nejdl, Zbyněk Hubka, František Batysta, J. Gautier, Robert Boge, V. E. Nefedova, T. Green, Fabio Giambruno, Fabio Frassetto, Luca Poletto, Jack A. Naylon, and D. D. Mai

Subjects

Materials science, Optics, Beamline, law, business.industry, Infrared, Extreme ultraviolet, Harmonic, User oriented, Laser, business, Beam (structure), law.invention

Abstract

We present experimental setup for user-oriented high-harmonic source with a description of different focusing and interaction geometries. Infrared rejection system and resulting extreme ultraviolet beam characterization are also described. Beamline is designed to be driven with 100 mJ

Published

2020

7. The construction of Allegra kilohertz femtosecond laser system at ELI-Beamlines

Author

Murat Torun, LukáÅ. ¡ Indra, Petr Strkula, Robert Boge, Jack A. Naylon, Roman Antipenkov, Bedřich Himmel, Petr Mazurek, Boguslaw Tykalewicz, Martin Horáček, Michael Greco, Pavel Bakule, Václav Šobr, Alexandr Špaček, Zbyněk Hubka, Emily Erdman, Jonathan T. Green, František Batysta, TomáÅ. ¡ Mazanec, Karel Majer, Bedřich Rus, and Jakub Novák

Subjects

Dazzler, Materials science, business.industry, Second-harmonic generation, Laser pumping, Laser, law.invention, Optics, Pulse compression, law, Picosecond, Femtosecond, business, Ultrashort pulse

Abstract

The Allegra femtosecond laser system is the main driver for high harmonic and plasma x-ray secondary sources at ELI-Beamlines operating at a 1 kHz rep rate. The system is based on OPCPA technology and consists of seven amplification stages pumped by thin-disk picosecond lasers. It is designed to reach 30 mJ output in the first phase of operation and to be ramped up to 50 mJ by engaging an additional pump laser. The amplified pulse is compressed to sub-20fs by an array of chirped mirrors and higher order dispersion is pre-compensated for by a Dazzler AOPDF in the front-end. In this paper we present the overview of Allegra system and the current status of deployment with a special focus on the high average power OPCPA in vacuum.

Published

2019

8. The Current Commissioning Results of the Allegra Kilohertz High-Energy Laser System at ELI-Beamlines

Author

Robert Boge, Zbyněk Hubka, Jakub Novák, Lukáš Indra, Pavel Bakule, Jonathan T. Green, Roman Antipenkov, Emily Erdman, Jack A. Naylon, Michael Greco, Alexandr Špaček, Karel Majer, Bedřich Rus, Tomáš Mazanec, František Batysta, Václav Šobr, Murat Torun, Boguslaw Tykalewicz, and Petr Mazůrek

Subjects

High contrast, Materials science, Optics, Regenerative amplification, Beamline, law, business.industry, High energy laser, Current (fluid), Laser, business, Energy (signal processing), law.invention

Abstract

We report on the status of the Allegra laser beamline, which is designed to provide ub-20 fs pulses with tens of mJ of energy with exceptionally high contrast at a 1 kHz repetition rate.

Published

2019

9. Fiber-based front ends for extreme light applications

Author

Roman Antipenkov, Martin Horáček, Robert Boge, Jack A. Naylon, Pavel Bakule, Jakub Novák, Jonathan T. Green, Boguslaw Tykalewicz, František Batysta, Lukáš Indra, Zbyněk Hubka, and Bedřich Rus

Subjects

Chirped pulse amplification, Fiber (mathematics), Computer science, business.industry, Optical table, Electrical engineering, Laser, Power (physics), law.invention, Front and back ends, law, Fiber laser, business, Front (military)

Abstract

For most extreme light applications, a reliable and stable driver laser is crucial to successful experiments. As lasers grow in energy and peak power they become increasingly complex and more failure modes are introduced to the system as a whole. For this reason it is prudent to develop a laser with simplicity, repeatability, and durability in mind. With the wide commercial availability of high quality, inexpensive fiber components, much of the required pulse conditioning for seeding high energy laser systems can take place entirely in fiber. This allows for much of the laser front end to be compact, alignment-free, and computer controlled with potentially dramatic savings in cost and space on the optical table. Here we explore some of the current trends in fiberbased front ends for high peak power laser systems. The requirements for any given high peak power laser are always quite different and fiber front ends are enormously customizable, so here we present two basic versions of fiber front ends which are used at the ELI-Beamlines facility which resemble other common fiber front end architectures.

Published

2018

10. ELI-beamlines: progress in development of next generation short-pulse laser systems

Author

G. Johnson, M. A. Drouin, Emily Sistrunk, T. Havlíček, Gavin Friedman, R. Baše, Christopher D. Marshall, L. Koubíková, Zbyněk Hubka, Daniel B. Kramer, Shawn Betts, A. Jochmann, S. Telford, Robert Boge, David A. Smith, A. Honsa, Mikael Martinez, Davorin Peceli, Cristina Hernandez-Gomez, František Batysta, Klaus Ertel, Todd Ditmire, Doug Hammond, P. Korous, Štěpán Vyhlídka, K. Kasl, Jonathan T. Green, J. C. Lagron, Thomas Metzger, P. Hribek, Martin Horáček, D. Snopek, E. Koh, Christopher J Edwards, J. Thoma, M. Laub, Gilles Chériaux, Michal Koselja, J. Weiss, Tomáš Mazanec, E. Verhagen, Jakub Novák, Jan Hubáček, Alvin C. Erlandson, Paul Mason, Josef Cupal, Tayyab I. Suratwala, J. Horner, Alexander R. Meadows, J. Jarboe, John R. Collier, Martin Fibrich, Jan Bartoníček, J. Stanley, S. Buck, M. Schultze, Jiri Polan, M. Kepler, Boguslaw Tykalewicz, Michal Ďurák, P. Homer, T. Spinka, C. Frederickson, Pavel Bakule, Pavel Trojek, Christopher J. Stolz, Václav Šobr, D. Mason, Roman Antipenkov, Andy J. Bayramian, Erhard Gaul, D. Kim, Andrew Lintern, Jack A. Naylon, C. Malato, Bedřich Himmel, Dave Hidinger, Lukáš Indra, Bedřich Rus, G. Kalinchenko, Constantin Haefner, Michael E Donovan, and Praveen Kumar Velpula

Subjects

Optical amplifier, Materials science, business.industry, Amplifier, Ti:sapphire laser, Laser pumping, Laser, 01 natural sciences, 010305 fluids & plasmas, Semiconductor laser theory, law.invention, 010309 optics, Optics, law, 0103 physical sciences, Optoelectronics, Laser power scaling, business, Tunable laser

Abstract

Overview of progress in construction and testing of the laser systems of ELI-Beamlines, accomplished since 2015, is presented. Good progress has been achieved in construction of all four lasers based largely on the technology of diode-pumped solid state lasers (DPSSL). The first part of the L1 laser, designed to provide 200 mJ

Published

2017

11. Development of high energy, sub-15 fs OPCPA system operating at 1 kHz repetition rate for ELI-Beamlines facility

Author

Lukáš Indra, Boguslaw Tykalewicz, Jakub Horáček, D. Snopek, Zbyněk Hubka, Jakub Novák, Robert Boge, Petr Strkula, František Batysta, Jack A. Naylon, Roman Antipenkov, Jonathan T. Green, Bedřich Rus, Martin Horáček, and Pavel Bakule

Subjects

Chirped pulse amplification, Materials science, business.industry, Amplifier, Pulse duration, 02 engineering and technology, Laser, 01 natural sciences, law.invention, 010309 optics, 020210 optoelectronics & photonics, Optics, Beamline, Mode-locking, law, Picosecond, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, business, Ultrashort pulse

Abstract

We report on the status of the high repetition rate, high energy, L1 laser beamline at the ELI-Beamlines facility. The beamline is based on picosecond optical parametric chirped pulse amplification (OPCPA) of pulses from a mode-locked Ti:Sapphire oscillator and has a target energy/repetition rate of 100 mJ/1 kHz with < 15fs pulse duration. The OPCPA pump lasers use thin disk technology to achieve the high energy and average power required to pump such a high energy, high repetition rate broadband amplifier. Here we report on the progress in beamline development and discuss the technical challenges involved in producing such a system and their solutions. A major focus of the laser development is reliable, robust operation and long term stability; mechanical, optical, and control system architecture design considerations to achieve our goals of long term stability are discussed.

Published

2017

12. Active cavity stabilization for high energy thin disk regenerative amplifier

Author

Zbyněk Hubka, Jonathan T. Green, Jack A. Naylon, Robert Boge, Pavel Bakule, Roman Antipenkov, Jakub Novák, Petr Mazůrek, František Batysta, Václav Šobr, Bedřich Rus, and Jakub Horáček

Subjects

Optical amplifier, Materials science, Active laser medium, business.industry, Physics::Optics, 02 engineering and technology, Laser pumping, Injection seeder, 021001 nanoscience & nanotechnology, 01 natural sciences, Self-pulsation, Round-trip gain, 010309 optics, Optics, 0103 physical sciences, Optoelectronics, Laser power scaling, 0210 nano-technology, business, Lasing threshold

Abstract

We present an active cavity pointing stabilization system based on a novel method that tracks the cavity mode position directly on the thin disk gain medium itself. Here, the overlap of the lasing cavity with the pump, visible as a depletion within the pumped area, is most crucial to the stability of the laser. Short term stability as well as long term stability are significantly increased enabling day long operation, directly from a cold start of the laser system, without the need for thermalization and manual alignment.

Published

2017

13. Picosecond pulse generated supercontinuum as a stable seed for OPCPA

Author

Petr Hříbek, František Batysta, Roman Antipenkov, Pavel Bakule, Robert Boge, Jakub Novák, Lukáš Indra, Jonathan T. Green, Jack A. Naylon, Bedřich Rus, and Zbyněk Hubka

Subjects

Optical amplifier, Materials science, business.industry, Amplifier, 02 engineering and technology, Laser pumping, 021001 nanoscience & nanotechnology, 01 natural sciences, Atomic and Molecular Physics, and Optics, Spectral line, Supercontinuum, 010309 optics, Crystal, Optics, Regenerative amplification, Mode-locking, 0103 physical sciences, 0210 nano-technology, business

Abstract

We present a stable supercontinuum (SC) generated in a bulk YAG crystal, pumped by 3 ps chirped pulses at 1030 nm. The SC is generated in a loose focus geometry in a 13 cm long YAG crystal, allowing for stable and robust single-filament generation. The SC energy stability exceeds that of the pump laser by almost a factor of 3. Additionally, we show that the SC spectrum has long-term stability and that the SC is coherent and compressible by compressing the portions of SC spectra close to the corresponding Fourier limit. This makes the picosecond-pulse-driven SC a suitable stable seed for OPCPA amplifiers.

Published

2017

14. Multi-channel, fiber-based seed pulse distribution system for femtosecond-level synchronized chirped pulse amplifiers

Author

Pavel Bakule, Tomáš Mazanec, Martin Horáček, Jakub Novák, Boguslaw Tykalewicz, Zbyněk Hubka, Bedřich Rus, Jonathan T. Green, Lukáš Indra, Jack A. Naylon, Robert Boge, Roman Antipenkov, Jakub Horáček, and František Batysta

Subjects

Femtosecond pulse shaping, Materials science, business.industry, Amplifier, 02 engineering and technology, Injection seeder, 021001 nanoscience & nanotechnology, Laser, 01 natural sciences, Pockels effect, law.invention, 010309 optics, Optics, Multiphoton intrapulse interference phase scan, law, 0103 physical sciences, 0210 nano-technology, business, Instrumentation, Ultrashort pulse, Bandwidth-limited pulse

Abstract

We report on the design and performance of a fiber-based, multi-channel laser amplifier seed pulse distribution system. The device is designed to condition and distribute low energy laser pulses from a mode-locked oscillator to multiple, highly synchronized, high energy amplifiers integrated into a laser beamline. Critical functions such as temporal pulse stretching well beyond 100 ps/nm, pulse picking, and fine control over the pulse delay up to 300 ps are all performed in fiber eliminating the need for bulky and expensive grating stretchers, Pockels cells, and delay lines. These functions are characterized and the system as a whole is demonstrated by seeding two high energy amplifiers in the laser beamline. The design of this system allows for complete computer control of all functions, including tuning of dispersion, and is entirely hands-free. The performance of this device and its subsystems will be relevant to those developing lasers where reliability, size, and cost are key concerns in addition to performance; this includes those developing large-scale laser systems similar to ours and also those developing table-top experiments and commercial systems.

Published

2017

15. Broadband OPCPA system with 11 mJ output at 1 kHz, compressible to 12 fs

Author

Tomáš Mazanec, Bedřich Rus, Bedřich Himmel, Zbyněk Hubka, Robert Boge, Jakub Novák, Pavel Bakule, Martin Horáček, Jack A. Naylon, Jakub Horáček, František Batysta, Jonathan T. Green, and Roman Antipenkov

Subjects

Amplified spontaneous emission, Materials science, Chirped mirror, business.industry, Energy conversion efficiency, 02 engineering and technology, 021001 nanoscience & nanotechnology, Laser, 01 natural sciences, Atomic and Molecular Physics, and Optics, law.invention, 010309 optics, Wavelength, Optics, Thin disk, Regenerative amplification, law, 0103 physical sciences, Optoelectronics, Laser beam quality, 0210 nano-technology, business

Abstract

We report on a broadband OPCPA system, pumped at 515 nm by frequency doubled Yb:YAG thin disk lasers. The system delivers 11.3 mJ pulses at a central wavelength of 800 nm with a spatial beam quality of Msup2/sup= 1.25 and25% pump-to-signal conversion efficiency. The broadband pulses were demonstrated to be compressible to 12 fs using a chirped mirror compressor.

Published

2016

16. Thin disk amplifier-based 40 mJ, 1 kHz, picosecond laser at 515 nm

Author

Robert Boge, Jakub Novák, Pavel Bakule, František Batysta, Tomáš Mazanec, Jack A. Naylon, Martin Horáček, Roman Antipenkov, Zbyněk Hubka, Jonathan T. Green, Bedřich Himmel, Bedřich Rus, and Thomas Metzger

Subjects

Picosecond laser, Materials science, business.industry, Amplifier, Pulse duration, 02 engineering and technology, Laser pumping, 021001 nanoscience & nanotechnology, 01 natural sciences, Atomic and Molecular Physics, and Optics, 010309 optics, Crystal, Optics, Regenerative amplification, Thin disk, Picosecond, 0103 physical sciences, Optoelectronics, 0210 nano-technology, business

Abstract

We report on a frequency-doubled picosecond Yb:YAG thin disk regenerative amplifier, developed as a pump laser for a kilohertz repetition rate OPCPA. At a repetition rate of 1 kHz, the compressed output of the regenerative amplifier has a pulse duration of 1.2 ps and pulse energy of 90 mJ with energy stability of σ < 0.8% and M2 < 1.2. The pulses are frequency doubled in an LBO crystal yielding 42 mJ at 515 nm.

Published

2016

17. Design of kW level picosecond compressor of pump pulses for high power OPCPA

Author

Jan Hřebíček, Radek Baše, Jakub Novák, Pavel Bakule, Zbyněk Hubka, Efstratios Koutris, Bedřich Rus, František Batysta, Jonathan T. Green, Miroslav Novák, Petr Strkula, Daniel B. Kramer, and Charalampos Zervos

Subjects

Materials science, business.industry, Amplifier, Energy conversion efficiency, Second-harmonic generation, Laser pumping, Laser, law.invention, Optics, law, Picosecond, Femtosecond, business, Gas compressor

Abstract

We present a design of a high average power vacuum compressor unit for 1 kHz repetition rate pump laser operating at 1030 nm. The unit comprises two compressors and two SHG units located in a common vacuum vessel. Both compressors are designed with GDD of -270.5 ps 2 for compressing high energy, 1J, 500 ps pulses to 1.5 ps duration with efficiency that exceeds 88.5%. We also considered the feasibility of high efficiency, average power conversion to 515 nm in a range of nonlinear crystals in vacuum. The calculated temperature profiles in large aperture crystals are compared with temperature acceptance bandwidths for the second harmonic generation. It is concluded that in LBO and YCOB crystals the conversion efficiency can exceed 60%, thus allowing generation of 1 kHz train of 1.5 ps pulses at 515 nm with energy exceeding 0.5 J that will be used for pumping the high energy amplifier stages of a femtosecond OPCPA system.

Published

2013

18. Investigation of Yb:LuAG crystals with high doping concentration

Author

Václav Ŝkoda, Karel Nejezchleb, Jan Šulc, Zbyněk Hubka, and Helena Jelínková

Subjects

Ytterbium, Materials science, Laser diode, business.industry, Slope efficiency, Analytical chemistry, chemistry.chemical_element, Pulse duration, Output coupler, Laser, law.invention, Wavelength, Optics, chemistry, law, Solid-state laser, business

Abstract

Two Yb:LuAG (Yb:Lu3Al5O12) plates (thickness 1.05 mm, diameter 3 mm, AR/AR @ 0.9 − 1.1 μm, Yb-doping c = 15% and 20 %) were prepared for laser experiments. For Yb:LuAG pumping, fibre coupled laser diode operating in pulsed regime was used (fibre core diameter 100 μm, emission wavelength 968 nm, pulse length 2 ms, repetition rate 10 Hz, maximum energy 40 mJ). The longitudinally pumped Yb:LuAG was placed inside the 148mm long resonator formed by a flat pumping mirror (HR @ 1.0 − 1.1 μm, HT @ 0.97 μm) and by a curved output coupler (radius of curvature 150 mm). Set of output couplers with reflectivity R = 70 − 97% @ 1.0−1.1 μm was used and the output power amplitude was measured in dependence on absorbed pumping power amplitude. It was found that for both samples the output coupler reflectivity had only minor influence on laser output parameters expect emission wavelength (1048nm for R < 90% and otherwise 1031 nm). The sample with lower concentration had a lower threshold (∼ 2.5W for c = 15% and ∼ 3.0W for c = 20%) and higher slope efficiency (∼ 61% for c = 15% and ∼ 50% for c = 20 %). The maximum output power amplitude 6.7W was obtained using Yb:LuAG with c = 20% and R = 92% for pumping power amplitude 14W. Obtained results confirmed the good quality of newly grown highly doped Yb:LuAG crystals.

Published

2013