Zobrazeno 1 - 10
of 44
pro vyhledávání: '"Jack A. Naylon"'
Autor:
Maksym Tryus, Filip Grepl, Timofej Chagovets, Andriy Velyhan, Lorenzo Giuffrida, Stanislav Stancek, Vasiliki Kantarelou, Valeria Istokskaia, Francesco Schillaci, Martina Zakova, Jan Psikal, Michal Nevrkla, Carlo Maria Lazzarini, Gabriele Maria Grittani, Leonardo Goncalves, Muhammad Fahad Nawaz, Josef Cupal, Lucia Koubíkova, Samuel Buck, Jiri Weiss, Davorin Peceli, Petr Szotkowski, Karel Majer, Jack Alexander Naylon, Jonathan Tyler Green, Daniel Kramer, Bedrich Rus, Georg Korn, Tadzio Levato, Daniele Margarone
Publikováno v:
Quantum Beam Science, Vol 4, Iss 4, p 37 (2020)
The TERESA (TEstbed for high REpetition-rate Sources of Accelerated particles) target area, recently commissioned with the L3-HAPLS laser at Extreme Light Infrastructure (ELI)-Beamlines, is presented. Its key technological sections (vacuum and contro
Externí odkaz:
https://doaj.org/article/a78695092846402ea9605669944a0e0e
Autor:
Jakub Novák, Emily C. Erdman, Roman Antipenkov, Boguslaw Tykalewicz, Martin Horáček, Petr Mazůrek, Murat Torun, Jonathan T. Green, Jack A. Naylon, Pavel Bakule, Bedřich Rus
Publikováno v:
Optics letters. 47(19)
A dual-output thin-disk picosecond laser operating at 100 W with 1 kHz repetition rate is reported in this Letter. By electronically adjusting the amplitude of the optical seed pulses that are injected into the laser cavity, the energy extracted from
Autor:
Jakub Novák, Emily Erdman, Roman Antipenkov, Lukáš Indra, Jonathan Tyler Green, Boguslaw Tykalewicz, Petr Mazůrek, Murat Torun, Jack Alexander Naylon, Pavel Bakule, Bedřich Rus
Publikováno v:
Conference on Lasers and Electro-Optics.
We report on the progress in developing a high energy, 1 kHz OPCPA auxiliary laser (F-SYNC) which is intended to supplement the L1-Allegra beamline. The auxiliary pulses are synchronized to the main laser with femtosecond precision and arbitrary dela
Upgrades of L1 Allegra Laser at ELI-Beamlines Facility for the Extended User Experiment Capabilities
Autor:
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, Bedřich Rus
Publikováno v:
Optica Advanced Photonics Congress 2022.
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
Autor:
Emily C. Erdman, Jakub Novák, Roman Antipenkov, Martin Horáček, Lukáš. Indra, Boguslaw Tykalewicz, Murat Torun, Petr Mazůrek, Jack A. Naylon, Pavel Bakule, Bedřich Rus
Publikováno v:
Conference on Lasers and Electro-Optics.
Thin disk regenerative amplifiers have suitable characteristics to pump picosecond OPCPA. By optimizing the trigger pulse to the MZM, a dual-output laser operating at 100 W, 1 kHz repetition rate, compressed to the transform limit is reported.
Autor:
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, Václav Šobr
Publikováno v:
Optics letters. 46(22)
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 Alleg
Autor:
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, Bedřich Rus
Publikováno v:
High Power Lasers and Applications.
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 d
Autor:
Jonathan T. Green, Karel Majer, Tomáš Mazanec, Bedřich Rus, Jakub Novák, Robert Boge, Martin Horáček, Lukáš Indra, Pavel Bakule, Zbynek Hubka, Václav Šobr, Emily Erdman, Wojciech Szuba, Boguslaw Tykalewicz, Petr Mazurek, Alexandr Špaček, Jack A. Naylon, Roman Antipenkov, Annika Grenfell, Michael Greco, Petr Strkula
Publikováno v:
High Power Lasers and Applications.
Autor:
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, Václav Šobr
Publikováno v:
Applied optics. 60(3)
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 deg
Autor:
Francesco Schillaci, Jiri Weiss, Michal Nevrkla, Filip Grepl, Lorenzo Giuffrida, Jonathan T. Green, Daniele Margarone, L. V. N. Goncalves, Josef Cupal, C. M. Lazzarini, Stanislav Stancek, Lucia Koubíkova, Bedrich Rus, Muhammad Fahad Nawaz, G. Grittani, Andriy Velyhan, Karel Majer, Petr Szotkowski, Samuel Buck, Martina Zakova, Jack A. Naylon, Vasiliki Kantarelou, Tadzio Levato, Georg Korn, Maksym Tryus, Davorin Peceli, Valeria Istokskaia, Jan Psikal, Timofej Chagovets, Daniel B. Kramer
Publikováno v:
Quantum Beam Science
Volume 4
Issue 4
Quantum Beam Science, Vol 4, Iss 37, p 37 (2020)
Tryus, M, Grepl, F, Chagovets, T, Velyhan, A, Giuffrida, L, Stancek, S, Kantarelou, V, Ostokskaia, V, Schillaci, F, Zakova, M, Pšikal, J, Nevrkla, M, Lazzarini, C M, Grittani, G, Goncalves, L, Nawaz, M F, Cupal, J, Koubikova, L, Bucl, S, Weiss, J, Peceli, D, Szotkowski, P, Majer, K, Naylon, J A, Green, J T, Kramer, D, Rus, B, Korn, G, Levato, T & Margarone, D 2020, ' TERESA Target Area at ELI Beamlines ', Quantum Beam Science, vol. 4, no. 4, 37 . https://doi.org/10.3390/qubs4040037
Volume 4
Issue 4
Quantum Beam Science, Vol 4, Iss 37, p 37 (2020)
Tryus, M, Grepl, F, Chagovets, T, Velyhan, A, Giuffrida, L, Stancek, S, Kantarelou, V, Ostokskaia, V, Schillaci, F, Zakova, M, Pšikal, J, Nevrkla, M, Lazzarini, C M, Grittani, G, Goncalves, L, Nawaz, M F, Cupal, J, Koubikova, L, Bucl, S, Weiss, J, Peceli, D, Szotkowski, P, Majer, K, Naylon, J A, Green, J T, Kramer, D, Rus, B, Korn, G, Levato, T & Margarone, D 2020, ' TERESA Target Area at ELI Beamlines ', Quantum Beam Science, vol. 4, no. 4, 37 . https://doi.org/10.3390/qubs4040037
The TERESA (TEstbed for high REpetition-rate Sources of Accelerated particles) target area, recently commissioned with the L3-HAPLS laser at Extreme Light Infrastructure (ELI)-Beamlines, is presented. Its key technological sections (vacuum and contro