Your search keyword '"Sedov, Maksim V."' showing total 7 results

1. Absolute keV X-ray yield and conversion efficiency in over dense Si petawatt laser plasma

Author

Ryazantsev, Sergey N., Martynenko, Artem S., Sedov, Maksim V., Skobelev, Igor Yu., Mishchenko, Mikhail D., Lavrinenko, Yaroslav S., Baird, Christopher D., Booth, Nicola, Durey, Phil, DÖhl, Leonard N. K., Farley, Damon, Lancaster, Kathryn L., Mckenna, Paul, Murphy, Christopher D., Pikuz, Tatiana A., Spindloe, Christopher, Woolsey, Nigel, and Pikuz, Sergey A.

Subjects

Physics - Plasma Physics

Abstract

Laser-produced plasmas are bright, short sources of X-rays often used for time-resolved imaging and spectroscopy. Absolute measurement requires accurate knowledge of laser-to-x-ray conversion efficiencies, spectrum, photon yield and angular distribution. Here we report on soft X-ray emission from a thin Si foil irradiated by a sub-PW picosecond laser pulse. These absolute measurements cover a continuous and broad spectral range that extends from 4.75 to 7.5 Angstroms (1.7-2.6 keV). The X-ray spectrum consists of spectral line transitions from highly charged ions and broadband emission with contributions from recombination, and free-free processes that occur as electrons decelerate in plasma electromagnetic fields. These quantitative measurements are compared to particle-in-cell simulations allowing us to distinguish bremsstrahlung and synchrotron contributions to the free-free emission. We found that experiment and simulation estimations of laser-to-bremsstrahlung conversion efficiency are in a good agreement. This agreement illustrates the accuracy of experiment and physical interpretation of the measurements.

Published

2021

2. The Role of Collision Ionization of K-Shell Ions in Nonequilibrium Plasmas Produced by the Action of Super Strong, Ultrashort PW-Class Laser Pulses on Micron-Scale Argon Clusters with Intensity up to 5 × 1021 W/cm2

Author

Skobelev, Igor Yu., primary, Ryazantsev, Sergey N., additional, Kulikov, Roman K., additional, Sedov, Maksim V., additional, Filippov, Evgeny D., additional, Pikuz, Sergey A., additional, Asai, Takafumi, additional, Kanasaki, Masato, additional, Yamauchi, Tomoya, additional, Jinno, Satoshi, additional, Ota, Masato, additional, Egashira, Syunsuke, additional, Sakai, Kentaro, additional, Minami, Takumi, additional, Abe, Yuki, additional, Tokiyasu, Atsushi, additional, Kohri, Hideki, additional, Kuramitsu, Yasuhiro, additional, Sakawa, Youichi, additional, Miyasaka, Yasuhiro, additional, Kondo, Kotaro, additional, Kon, Akira, additional, Sagisaka, Akito, additional, Ogura, Koichi, additional, Pirozhkov, Alexander S., additional, Kando, Masaki, additional, Kiriyama, Hiromitsu, additional, Pikuz, Tatiana A., additional, and Fukuda, Yuji, additional

Published

2023

3. The Role of Collision Ionization of K-Shell Ions in Nonequilibrium Plasmas Produced by the Action of Super Strong, Ultrashort PW-Class Laser Pulses on Micron-Scale Argon Clusters with Intensity up to 5 × 10 21 W/cm 2.

Author

Skobelev, Igor Yu., Ryazantsev, Sergey N., Kulikov, Roman K., Sedov, Maksim V., Filippov, Evgeny D., Pikuz, Sergey A., Asai, Takafumi, Kanasaki, Masato, Yamauchi, Tomoya, Jinno, Satoshi, Ota, Masato, Egashira, Syunsuke, Sakai, Kentaro, Minami, Takumi, Abe, Yuki, Tokiyasu, Atsushi, Kohri, Hideki, Kuramitsu, Yasuhiro, Sakawa, Youichi, and Miyasaka, Yasuhiro

Subjects

ULTRASHORT laser pulses, ULTRA-short pulsed lasers, LASER plasmas, NONEQUILIBRIUM plasmas, ELECTRON-ion collisions, ARGON, IONS

Abstract

The generation of highly charged ions in laser plasmas is usually associated with collisional ionization processes that occur in electron–ion collisions. An alternative ionization channel caused by tunnel ionization in an optical field is also capable of effectively producing highly charged ions with ionization potentials of several kiloelectronvolts when the laser intensity q > 1020 W/cm2. It is challenging to clearly distinguish the impacts of the optical field and collisional ionizations on the evolution of the charge state of a nonequilibrium plasma produced by the interaction of high-intensity, ultrashort PW-class laser pulses with dense matter. In the present work, it is shown that the answer to this question can be obtained in some cases by observing the X-ray spectral lines caused by the transition of an electron into the K-shell of highly charged ions. The time-dependent calculations of plasma kinetics show that this is possible, for example, if sufficiently small clusters targets with low-density background gas are irradiated. In the case of Ar plasma, the limit of the cluster radius was estimated to be R0 = 0.1 μm. The calculation results for argon ions were compared with the results of the experiment at the J-KAREN-P laser facility at QST-KPSI. [ABSTRACT FROM AUTHOR]

Published

2023

4. Absolute keV x-ray yield and conversion efficiency in over dense Si sub-petawatt laser plasma

Author

Ryazantsev, Sergey N, primary, Martynenko, Artem S, additional, Sedov, Maksim V, additional, Skobelev, Igor Yu, additional, Mishchenko, Mikhail D, additional, Lavrinenko, Yaroslav S, additional, Baird, Christopher D, additional, Booth, Nicola, additional, Durey, Phil, additional, Döhl, Leonard N K, additional, Farley, Damon, additional, Lancaster, Kathryn L, additional, McKenna, Paul, additional, Murphy, Christopher D, additional, Pikuz, Tatiana A, additional, Spindloe, Christopher, additional, Woolsey, Nigel, additional, and Pikuz, Sergey A, additional

Published

2022

5. The Role of Stepwise Photoionization in Measurements of the Ionization Potentials in Dense Plasma.

Author

Skobelev, Igor Yu., Ryazantsev, Sergey N., Kulikov, Roman K., Sedov, Maksim V., and Pikuz, Sergey A.

Subjects

IONIZATION energy, DENSE plasmas, FREE electron lasers, PLASMA potentials, PHOTOIONIZATION, X-ray lasers, INERTIAL confinement fusion

Abstract

The interaction of high-contrast high-intensity laser radiation with solids allows us to create hot or warm plasma of solid or even over-solid density, such as in the case of inertial fusion particularly. The multicharged ions contained in it can no longer be considered isolated. As a result, this leads to a decrease in the ionization potentials and to the disappearance of a number of bound ionic states. To describe the ionization potential depression, two major approaches are now used predominantly, where the key parameter is either average interelectronic or interionic distance. Since neither of the approaches can be substantiated purely theoretically, their applicability can only be established by comparison with experimental results. In recent experiments with X-ray free-electron lasers, it was concluded that the ionization potential depression rather depends on the interelectronic distance. However, when measuring ionization potentials, it was assumed that the main role in ionization processes is played by the direct photoionization of the ion ground state. In the present paper, we show that stepwise photoionization processes should play a significant role in dense plasma, disrupting a straight correspondence between the threshold in direct photoionization by X-ray laser photons and the actual ionization potential of multicharged ions. It means that the measurement results mentioned above are not correct, and the main conclusion about the importance of the interelectronic distance for depression of the ionization potential is not correct. [ABSTRACT FROM AUTHOR]

Published

2023

6. Analysis of Lyα Dielectronic Satellites to Characterize Temporal Profile of Intense Femtosecond Laser Pulses

Author

Ryazantsev, Sergey N., primary, Skobelev, Igor Y., additional, Martynenko, Artem S., additional, Alkhimova, Maria A., additional, Mishchenko, Mikhail D., additional, Sedov, Maksim V., additional, Pikuz, Tatiana A., additional, Fukuda, Yuji, additional, Kiriyama, Hiromitsu, additional, Pirozhkov, Alexander S., additional, and Pikuz, Sergey A., additional

Published

2021

7. Analysis of Ly α Dielectronic Satellites to Characterize Temporal Profile of Intense Femtosecond Laser Pulses.

Author

Ryazantsev, Sergey N., Skobelev, Igor Y., Martynenko, Artem S., Alkhimova, Maria A., Mishchenko, Mikhail D., Sedov, Maksim V., Pikuz, Tatiana A., Fukuda, Yuji, Kiriyama, Hiromitsu, Pirozhkov, Alexander S., Pikuz, Sergey A., and Isaenko, Ludmila

Subjects

LASER plasmas, DENSE plasmas, HIGH temperature plasmas, FEMTOSECOND pulses, PLASMA density, ELECTRON plasma, ELECTRON density, OPTICAL scanners

Abstract

In the paper, an X-ray spectroscopy-based approach on laser pulse temporal profile characterization is described. The structure of dielectronic satellites to H-like Lyα lines strongly depends on a plasma electron density, so it can be applied for diagnostics. These spectral lines are mainly emitted during initial stage of laser plasma expansion. It means that plasma parameters obtained via them characterizes matter conditions in a region surrounding a spot of laser-matter interaction. In the case when a laser contrast is high enough, the radiation interacts with cold matter, which had not been preliminary perturbed by a laser prepulse, and the satellites structure shape corresponding to high densities should be observed. It allows us to consider the satellites as a diagnostic tool for the laser temporal profile quality. In the paper dependencies of the dielectronic satellites structure on electron densities obtained from detailed kinetic calculations in the wide range of plasma parameter for different elements are under discussion. Fundamental theoretical aspects of plasma diagnostic based on the feature of satellite structures shape in hot dense plasma, which led to development of the proposed method, are also explained. [ABSTRACT FROM AUTHOR]

Published

2021