Your search keyword '"M. Grittani, G."' showing total 4 results

1. Optimization of BISER via Laser and Plasma Tuning

Author

Shatokhin, A., Kotov, A., M. Jeong, T., M. Grittani, G., Dzelzainis, T., Hull, G., Dann, S., Akito, Sagisaka, Vishnyakov, E., Kolesnikov, A., Masato, Koike, Timur, Esirkepov, Masaki, Kando, Koichi, Ogura, A. Pikuz, T., Kevin Koga, James, Hiromitsu, Kiriyama, Soloviev, A., Ragozin, E., Bulanov, Sergey, Kiminori, Kondo, Tetsuya, Kawachi, Symes, D., Neely, D., and Pirozhkov, Alexander

Abstract

1. Introduction Burst Intensification by Singularity Emitting Radiation (BISER) [1] is the emission of coherent traveling waves by multi-stream flow singularities. Such singularities can be produced in relativistic plasma by high-power lasers, resulting in very bright coherent x-ray emission [2],[3]. 2. Experimental We have recently performed an experiment on BISER coherent x-ray generation with the Astra Laser at the CLF RAL, UK. We extensively optimized the experimental conditions, namely the plasma density and profile, and laser spot [4] and pulse, making use of substantial beam time. This resulted in a ~2 orders of magnitude higher BISER brightness compared to earlier experiments with 10 TW lasers. 3. Results In this presentation we discuss results from two soft x-ray spectrographs: a three-channel flat field spectrograph [5] in the forward direction (channels at −0.6, 0, and 0.8°) operating in the 17-34 nm range and a normal-incidence imaging spectrograph [6] in a 10° off-axis direction operating in the 12.4-20 nm range. Under optimum conditions, both spectrographs showed μJ and higher BISER pulse energies per shot in the corresponding spectral ranges and within their acceptance angles. This implies multi-100 μJ BISER pulses in the entire spectral range and within the full angular width. Acknowledgement We acknowledge support from the Astra Laser Group and the CLF Target Fab, Mechanical, and Electrical. Financial support: JSPS Kakenhi JP 19KK0355 and 19H00669, CLF, Russian Science Foundation (20-62-46050), IAP RAS, ELI-Beamlines, MŠMT by the project "Advanced Research Using High Intensity Laser Produced Photons and Particles" (CZ.02.1.01/0.0/0.0/16_019/0000789), High Field Initiative (CZ.02.1.01/0.0/0.0/15_003/0000449) from the European Regional Development Fund, and the QST Director Fund 創成的研究 #20. References [1]A. S. Pirozhkov, T. Zh. Esirkepov et al., "Burst intensification by singularity emitting radiation in multi-stream flows," Sci. Rep. 7, 17968 (2017). [2]A. S. Pirozhkov, et al. "Soft-X-Ray Harmonic Comb from Relativistic Electron Spikes" PRL 108, 135004 (2012). [3]A. S. Pirozhkov, et al., "High order harmonics from relativistic electron spikes" NJP 16, 093003 (2014). [4]A. S. Pirozhkov, et al. "Laser Requirements for High-Order Harmonic Generation by Relativistic Plasma Singularities," Quantum Beam Sci. 2, 7 (2018). [5]D. Neely, et al., "A multi-channel soft X-ray flat-field spectrometer," AIP Conf. Proc. 426, 479 (1998). [6]A. N. Shatokhin, et al., "High-resolution stigmatic spectrograph for a wavelength range of 12.5-30 nm," Opt. Express 26, 19009 (2018)., OPIC-2022 (ALPS-2022)

Published

2022

2. BISER enhancement with Astra laser

Author

Shatokhin, A., Kotov, A., M. Jeong, T., M. Grittani, G., Dzelzainis, T., Hull, G., Dann, S., Akito, Sagisaka, Vishnyakov, E., Kolesnikov, A., Masato, Koike, Timur, Esirkepov, Masaki, Kando, Koichi, Ogura, A. Pikuz, T., Kevin Koga, James, Hiromitsu, Kiriyama, Soloviev, A., Ragozin, E., Bulanov, Sergey, Kiminori, Kondo, Tetsuya, Kawachi, Symes, D., Neely, D., and Pirozhkov, Alexander

Abstract

Burst Intensification by Singularity Emitting Radiation (BISER) [1] is the phenomenon of extremely bright coherent wave emission (constructive interference, N^2 effect) by singularities of multi-stream flows. High-power femtosecond lasers can produce such flows and corresponding relativistic plasma singularities in underdense plasma; these singularities emit very bright coherent x-rays [2]-[3]. We have recently performed an experiment on BISER coherent x-ray generation with the Astra Laser in the CLF RAL, UK. We observed BISER coherent soft x-rays with two spectrographs: a three-channel flat field spectrograph [4] in the forward direction (channels at -0.6, 0, and 0.8°) operating in the 17-34 nm range and a normal-incidence imaging spectrograph [5] in a 10° off-axis direction operating in the 12.4-20 nm range. Both spectrographs, in addition, provided data on the angular distribution of the BISER radiation. We took advantage of an extensive experiment term and long daily laser operation hours to optimize the laser (in particular, focal spot, which is a necessary prerequisite for BISER [6], and pulse width) and the experimental conditions (in particular, the density profile). These resulted in ~2 orders of magnitude enhancement in BISER photon number, providing >10^11 photons and >μJ energies per pulse in each channel at 7 TW laser power, the result which could previously be obtained at >100 TW laser power only. We acknowledge support from the Astra Laser Group and the CLF Target Fab, Mechanical, and Electrical. Financial support: JSPS Kakenhi JP 19KK0355 and 19H00669, CLF, Russian Science Foundation (20-62-46050), IAP RAS, ELI-Beamlines, the Ministry of Education, Youth and Sports of the Czech Republic by the project "Advanced Research Using High Intensity Laser Produced Photons and Particles" (CZ.02.1.01/0.0/0.0/16_019/0000789), and the QST Director Fund 創成的研究 #20. [1] A. Pirozhkov, T. Esirkepov et al., "Burst intensification by singularity emitting radiation in multi-stream flows," Sci. Rep. 7, 17968 (2017). [2] A. S. Pirozhkov et al. "Soft-X-Ray Harmonic Comb from Relativistic Electron Spikes" PRL 108 135004 (2012) [3] A. S. Pirozhkov et al., "High order harmonics from relativistic electron spikes" New J. Phys. 16, 093003 (2014). [4] D. Neely et al., "A multi-channel soft X-ray flat-field spectrometer," AIP Conf. Proc. 426, 479 (1998). [5] A. Shatokhin et al., "High-resolution stigmatic spectrograph for a wavelength range of 12.5-30 nm," Opt. Express 26 19009 (2018). [6] A. S. Pirozhkov, et al. "Laser Requirements for High-Order Harmonic Generation by Relativistic Plasma Singularities," Quantum Beam Sci. 2, 7 (2018)., Annual meeting of the JSAP

Published

2022

3. 2021 Astra BISER experiment highlights

Author

Shatokhin, A., Kotov, A., M. Jeong, T., M. Grittani, G., Dzelzainis, T., Hull, G., Dann, S., Akito, Sagisaka, Vishnyakov, E., Kolesnikov, A., Timur, Esirkepov, Masaki, Kando, Soloviev, A., Ragozin, E., Symes, D., Neely, D., and Pirozhkov, Alexander

Abstract

We have recently performed an experiment on BISER with the Astra Laser in the CLF RAL. Here we present some of the experiment highlights., 2021 Christmas Meeting of the High Powered Laser Science Community

Published

2021

4. Polarity reversal of wakefields driven by ultrashort pulse laser

Author

Valenta, P., Timur, Esirkepov, Kevin Koga, James, Necas, A., M. Grittani, G., M. Lazzarini, C., Klimo, O., Korn, G., Bulanov, Sergey, Valenta, P., Timur, Esirkepov, Kevin Koga, James, Necas, A., M. Grittani, G., M. Lazzarini, C., Klimo, O., Korn, G., and Bulanov, Sergey

Abstract

With analytical calculations and computer simulations, we show that the properties of wakefield excited by an ultrashort laser pulse in high-density plasmas are determined by the effects of dispersion and carrier-envelope phase shift of the driving pulse. The main observed feature is a periodic long-wavelength modulation of the wakefield amplitude. The results obtained are important, e.g., for the enhancement of the quality of electron beams accelerated via laser-wakefield mechanism under the conditions relevant to high-repetition-rate laser systems.

Published

2020