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143 results on '"Valenta, Petr"'

1. Bright coherent attosecond X-ray pulses from beam-driven relativistic mirrors

Author

Lamač, Marcel, Valenta, Petr, Nejdl, Jaroslav, Chaulagain, Uddhab, Jeong, Tae Moon, and Bulanov, Sergei Vladimirovich

Subjects
Physics - Plasma Physics, Physics - Optics
Abstract

Bright ultrashort X-ray pulses allow scientists to observe ultrafast motion of atoms and molecules. Coherent light sources, such as the X-ray free electron laser (XFEL), enable remarkable discoveries in cell biology, protein crystallography, chemistry or materials science. However, in contrast to optical lasers, lack of X-ray mirrors demands XFELs to amplify radiation over a single pass, requiring tens or hundreds of meters long undulators to produce bright femtosecond X-ray pulses. Here, we propose a new ultrafast coherent light source based on laser reflection from a relativistic mirror driven by a relativistic charged particle beam in micrometer-scale plasma. We show that reflection of millijoule-level laser pulses from such mirrors can produce bright, coherent and bandwidth-tunable attosecond X-ray pulses with peak intensity and spectral brightness comparable to XFELs. In addition, we find that beam-driven relativistic mirrors are highly robust, with laser-induced damage threshold exceeding solid-state components by at least two orders of magnitude. Our results promise a new way for bright coherent attosecond X-ray pulse generation, suitable for unique applications in fundamental physics, biology and chemistry.

Published
2024

2. On the synergic approach toward the experimental realization of interesting fundamental science within the framework of relativistic flying mirror concept

Author

Jeong, Tae Moon, Bulanov, Sergei V., Valenta, Petr, and Hadjisolomou, Prokopis

Subjects
Physics - Plasma Physics, Physics - Optics
Abstract

The relativistic flying parabolic mirror can provide a higher laser intensity than the intensity a current laser system can reach via the optical-focusing scheme. A weakly-relativistic laser intensity (1.8$\times$10$^{17}$ W/cm$^2$, $\eta$ = 0.29) can be intensified up to a super-strong intensity of >1$\times$10$^{27}$ W/cm$^2$ ($\eta$ $\approx$ 2.2$\times$10$^4$) by the relativistic flying mirror. Such a super-strong field can be applied to study the strong-field quantum electrodynamics in perturbative and non-perturbative regimes. In this review, the analytic derivations on the field strength and distribution obtained by the ideal relativistic flying parabolic mirror have been shown under the 4$\pi$-spherical focusing approach. The quantum nonlinearity parameter is calculated when such a super-strong field collides with the high-energy $\gamma$-photons. The peak quantum nonlinearity parameter reaches above 1600 when the 1-GeV $\gamma$-photon collides with a super-strong laser field reflected and focused by the relativistic flying mirror driven by a 10 PW laser pulse.

Published
2023

4. The Effect of Ultrastrong Magnetic Fields on Laser-Produced Gamma-Ray Flashes

Author

Hadjisolomou, Prokopis, Shaisultanov, Rashid, Jeong, Tae Moon, Valenta, Petr, and Bulanov, Sergey Vladimirovich

Subjects
Physics - Plasma Physics
Abstract

Laser produced $gamma$-photons can make an important impact on applied and fundamental physics that require high $gamma$-photon yield and strong collimation. We propose addition of a constant magnetic field to the laser-solid interaction to obtain the aforementioned desired $gamma$-photon properties. The $gamma$-ray flash spatial and spectral characteristics are obtained via quantum electrodynamics particle-in-cell simulations. When the constant magnetic field aligns with the laser magnetic field then the $gamma$-ray emission is significantly enhanced. Moreover, the $gamma$a-photon spatial distribution becomes collimated, approximately in the form of a disk., Comment: 5 pages, 5 figures

Published
2023

5. Electron-positron pairs and radioactive nuclei production by irradiation of high-Z target with \gamma-photon flash generated by an ultra-intense laser in the $\lambda^3$ regime

Author

Kolenatý, David, Hadjisolomou, Prokopis, Versaci, Roberto, Jeong, Tae Moon, Valenta, Petr, Olšovcová, Veronika, and Bulanov, Sergei Vladimirovich

Subjects
Physics - Computational Physics, Physics - Plasma Physics
Abstract

This paper studies the interaction of laser-driven $\gamma$-photons and high energy charged particles with high-Z targets through Monte-Carlo simulations. The interacting particles are taken from particle-in-cell simulations of the interaction of a tightly-focused ultraintense laser pulse with a titanium target. Lead is chosen as the secondary high-Z target owing to its high cross section of the giant dipole resonance and electron-positron pair production. The results reveal an ultra-short ultra-relativistic collimated positron population and their energy spectra, angular distribution, and temporal profile are found. We investigate the target thickness dependence of the resulting total numbers and total kinetic energies of various particle species emitted from the lead target irradiated with laser-generated $\gamma$-photons and charged particles separately. We plot the charts of residual high-Z nuclides generated by irradiation of the lead target. Owing to the short pulse duration, the $\gamma$-photon, electron-positron, and neutron sources can find applications in material science, nuclear physics, laboratory astrophysics, and as injectors in laser-based accelerators of charged particles., Comment: 10 pages, 6 figures

Published
2022

6. Relativistic-flying laser focus by a laser-produced parabolic plasma mirror

Author

Jeong, Tae Moon, Bulanov, Sergei V., Valenta, Petr, Korn, Georg, Esirkepov, Timur Zh., Koga, James K., Pirozhkov, Alexander S., Kando, Masaki, and Bulanov, Stepan S.

Subjects
Physics - Plasma Physics, Physics - Optics
Abstract

The question of electromagnetic field intensification towards the values typical for strong field Quantum Electrodynamics is of fundamental importance. One of the most promising intensification schemes is based on the relativistic-flying mirror concept, which shows that the electromagnetic radiation reflected by the mirror will be frequency up-shifted by a factor of 4 gamma^2 (gamma: the Lorentz factor of the mirror). In laser-plasma interactions, such a mirror travels with relativistic velocities and typically has a parabolic form, which is advantageous for light intensification. Thus, a relativistic-flying parabolic mirror reflects the counter-propagating radiation in a form of focused and flying electromagnetic wave with a high frequency. The relativistic-flying motion of the laser focus makes the electric and magnetic field distributions of the focus complicated, and the mathematical expressions describing the field distributions of the focus is important. We present analytical expressions describing the field distribution formed by an ideal flying mirror having a perfect reflectance over the entire surface and wavelength range. The peak field strength of an incident laser pulse with a center wavelength of lambda_0 and an effective beam radius of w_e is enhanced by a factor proportional to gamma^3 (w_e/lambda_0) in the relativistic limit. Electron-positron pair production is investigated in the context of invariant fields based on the enhanced electromagnetic field. The pair production rate under the relativistic-flying laser focus is modified by the Lorentz gamma-factor and the beam radius-wavelength ratio (w_e/lambda_0). We show that the electron-positron pairs can be created by colliding two counter-propagating relativistic-flying laser focuses in vacuum, each of which is formed when a 180 TW laser pulse is reflected by a relativistic-flying parabolic mirror with a gamma = 12.2.

Published
2021
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7. Gamma-Ray Flash Generation in Irradiating Thin Foil Target by Single Cycle Tightly Focused Extreme Power Laser Pulse

Author

Hadjisolomou, Prokopis, Jeong, Tae Moon, Valenta, Petr, Korn, Georg, and Bulanov, Sergei

Subjects
Physics - Plasma Physics
Abstract

We present a regime where an ultra-intense laser pulse interacting with a foil target results in high $\gamma$-photon conversion efficiency, obtained via three-dimensional quantum-electrodynamics particle-in-cell simulations. A single-cycle laser pulse is used under the tight-focusing condition for obtaining the $\mathrm{\lambda}^3$ regime. The simulations employ a radially polarized laser as it results in higher $\gamma$-photon conversion efficiency compared to both azimuthal and linear polarizations. A significant fraction of the laser energy is transferred to positrons, while a part of the electromagnetic wave escapes the target as attosecond single-cycle pulses., Comment: 6 pages, 5 figures

Published
2021
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9. Wakefield Excited by Ultrashort Laser Pulses in Near-Critical Density Plasmas

Author

Valenta, Petr, Klimo, Ondrej, Grittani, Gabriele M., Esirkepov, Timur Zh., Korn, Georg, and Bulanov, Sergei V.

Subjects
Physics - Plasma Physics
Abstract

Laser wakefield acceleration (LWFA) using high repetition rate mJ-class laser systems brings unique opportunities for a broad range of applications. In order to meet the conditions required for the electron acceleration with lasers operating at lower energies, one has to use high density plasmas and ultrashort pulses. In the case of a few-cycle pulse, the dispersion and the carrier envelope phase effects can no longer be neglected. In this work, the properties of the wake waves generated by ultrashort pulse lasers in near-critical density plasmas are investigated. The results obtained may lead to enhancement of the quality of LWFA electron beams using kHz laser systems., Comment: 9 pages; presented at SPIE Optics + Optoelectronics, 2019, Prague, Czech Republic

Published
2019
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10. Boosted High Order Harmonics from Electron Density Singularity Formed at the Relativistic Laser Bow Wave

Author

Mu, Jie, Esirkepov, Timur Zh., Gu, Yanjun, Jeong, Tae Moon, Valenta, Petr, Pirozhkov, Alexander S., Koga, James K., Kando, Masaki, Korn, Georg, and Bulanov, Sergei V.

Subjects
Physics - Plasma Physics
Abstract

We demonstrate coherent hard electromagnetic radiation generation from reflection by the electron density singularity formed at the relativistic bow wave in laser plasma via particle-in-cell simulations. Wake and bow waves driven by an intense laser pulse form an electron density singularity at the laser pulse front where they join. A counter-propagating laser pulse is reflected at the electron density modulations moving with relativistic velocity. The reflected electromagnetic pulse is compressed and its frequency is upshifted. Its frequency spectrum contains relativistic harmonics of the driver pulse frequency generated at the bow wave front, all upshifted with the same factor as the fundamental mode of the incident light., Comment: 3 figures

Published
2019

11. Feasibility of optical probing of relativistic plasma singularities

Author

Esirkepov, Timur Zh., Mu, Jie, Gu, Yanjun, Jeong, Tae Moon, Valenta, Petr, Klimo, Ondrej, Koga, James K., Kando, Masaki, Neely, David, Korn, Georg, Bulanov, Sergei V., and Pirozhkov, Alexander S.

Subjects
Physics - Plasma Physics
Abstract

Singularities in multi-stream flows of relativistic plasmas can efficiently produce coherent high-frequency radiation, as exemplified in the concepts of Relativistic Flying Mirror [S. V. Bulanov, et al., Phys. Rev. Lett. 91, 085001 (2003)] and Burst Intensification by Singularity Emitting Radiation (BISER) [Pirozhkov, et al., Scientific Reports 7, 17968 (2017)]. Direct observation of these singularities is challenging due to their extreme sharpness (tens of nanometers), relativistic velocity, and transient non-local nature. We propose to use ultrafast (a few light cycles) optical probe for identifying relativistic plasma singularities. Our Particle-in-Cell (PIC) simulations show that this diagnostic is feasible., Comment: 11 pages, 6 figures, 32 references

Published
2019
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19. Electron-positron pairs and radioactive nuclei production by irradiation of high-Z target with ��-photon flash generated by an ultra-intense laser in the $��^3$ regime

Author

Kolenat��, David, Hadjisolomou, Prokopis, Versaci, Roberto, Jeong, Tae Moon, Valenta, Petr, Ol��ovcov��, Veronika, and Bulanov, Sergei Vladimirovich

Subjects
Plasma Physics (physics.plasm-ph), FOS: Physical sciences, Computational Physics (physics.comp-ph)
Abstract

This paper studies the interaction of laser-driven $��$-photons and high energy charged particles with high-Z targets through Monte-Carlo simulations. The interacting particles are taken from particle-in-cell simulations of the interaction of a tightly-focused ultraintense laser pulse with a titanium target. Lead is chosen as the secondary high-Z target owing to its high cross section of the giant dipole resonance and electron-positron pair production. The results reveal an ultra-short ultra-relativistic collimated positron population and their energy spectra, angular distribution, and temporal profile are found. We investigate the target thickness dependence of the resulting total numbers and total kinetic energies of various particle species emitted from the lead target irradiated with laser-generated $��$-photons and charged particles separately. We plot the charts of residual high-Z nuclides generated by irradiation of the lead target. Owing to the short pulse duration, the $��$-photon, electron-positron, and neutron sources can find applications in material science, nuclear physics, laboratory astrophysics, and as injectors in laser-based accelerators of charged particles., 10 pages, 6 figures

Published
2022
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20. Produkce elektron-pozitronových párů a radioaktivních jader ozařováním terče s vysokým protonovým číslem zábleskem γ fotonů generovaných ultraintenzivním laserem v režimu λ3

Author

Kolenatý, David, Hadjisolomou, Prokopis, Versaci, Roberto, Jeong, Tae Moon, Valenta, Petr, Olšovcová, Veronika, and Bulanov, Sergei Vladimirovich

Subjects
fotojaderné interakce, elektron-pozitronové páry, Ultraintenzivní laser, photonuclear interactions, ultra-intense laser, γ-fotonový záblesk, electron-positron pairs, simulace Monte Carlo, γ-photon flash, Monte Carlo simulation
Abstract

Tato práce studuje interakci laserem generovaných γ fotonů a vysokoenergetických nabitých částic s terči s vysokým protonovým číslem prostřednictvím simulací Monte Carlo. Interagující částice jsou převzaty z Particle in Cell simulace ultraintenzivního laserového pulsu úzce zaostřeného na titanový terč. Olovo je vybráno jako materiál sekundárního terče s vysokým protonovým číslem kvůli vysokému účinnému průřezu obří dipólové rezonance (z angl. Giant Dipole Resonance) a produkci elektron-pozitronového páru pomocí γ fotonů. Výsledky odhalují ultrakrátkou, ultrarelativistickou kolimovanou populaci pozitronů a jsou vypočítány a graficky znázorněny jejich energetická spektra, úhlová rozdělení a časové profily. Zkoumáme závislost výsledného celkového počtu a celkové kinetické energie různých druhů částic emitovaných z olověného terče ozářeného laserem generovanými γ fotony a nabitými částicemi zvlášť na tloušťce terče. Graficky interpretujeme množství zbytkových nuklidů s vysokým protonovým číslem, které vznikají při ozařování olověného terče. Vzhledem ke krátké době trvání pulzu by zdroje γ fotonů, elektron-pozitronových párů a neutronů mohly najít uplatnění v materiálových vědách, jaderné fyzice, laboratorní astrofyzice a jako injektory v laserových urychlovačích nabitých částic. This paper studies the interaction of laser-driven γ photons and high-energy charged particles with high-Z targets through Monte Carlo simulations. The interacting particles are taken from particle-in-cell simulations of the interaction of a tightly focused ultra-intense laser pulse with a titanium target. Lead is chosen as the secondary high-Z target because of its high cross-section of the giant dipole resonance and electron-positron pair production. The results reveal an ultra-short, ultra-relativistic collimated positron population, and their energy spectra, angular distribution, and temporal profile are found. We investigate the target thickness dependence of the resulting total numbers and total kinetic energies of various particle species emitted from the lead target irradiated with laser-generated γ photons and charged particles separately. We plot the charts of residual high-Z nuclides generated by irradiation of the lead target. Because of the short pulse duration, the γ photon, electron-positron, and neutron sources could find applications in material science, nuclear physics, laboratory astrophysics, and as injectors in laser-based accelerators of charged particles.

Published
2022

21. A case report of physiotherapeutic care of a patient after vertebroplasty

Author

Valenta, Petr, Sohrová, Jana, and Dušánek, Tomáš

Subjects
osteoporóza, percutaneous vertebroplasty, physiotherapy, fyzioterapie, perkutánní vertebroplastika, osteoporosis
Abstract

Author: Petr Valenta Title: A case report of physiotherapeutic care of a patient after vertebroplasty Objectives: The aim of this paper is to summarize the theoretical knowledge about vertebroplasty and the facts leading to this procedure and to present a possible example of physiotherapeutic care in a specific case of a patient after percutaneous vertebroplasty. Methodology: The bachelor thesis is divided into two parts: theoretical and special. The theoretical part contains general knowledge of kinesiology of the spine, problems of compression fractures and osteoporosis and physiotherapeutic methods and procedures related to these diagnoses. All the information contained in the theoretical part has been taken from the literature. The special part of this bachelor thesis was prepared on the basis of a continuous professional practice in the period from 24 January to 4 February 2022 at the University Hospital Královské Vinohrady. It is prepared as a case report of a patient after percutaneous vertebroplasty. It contains kinesiological analysis, records of the course of therapy, outcome kinesiological analysis and evaluation of the effect of therapy. Results: During the therapies, the patient experienced a partial shift in her health. At the beginning she was a very unassisted patient able to walk...

Published
2022

23. Dva „vikinské“ náramky z Nového Knína, okr. Příbram. Jejich původ, prvkové složení a technologie výroby / Two “Viking” bracelets from Nový Knín in Central Bohemia. Their origin, chemical composition and production technology

Author

Korený, Rastislav, primary, Vopálenský, Michal, additional, Kumpová, Ivana, additional, Msallamová, Šárka, additional, Drábková, Klára, additional, Fikrle, Marek, additional, Valenta, Petr, additional, and Frána, Jaroslav, additional

Published
2022
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28. Relativistic flying laser focus by a laser-produced parabolic plasma mirror

Author

Moon Jeong, Tae, Bulanov, Sergey, Valenta, Petr, Korn, Georg, Timur, Esirkepov, Kevin Koga, James, Pirozhkov, Alexander, Masaki, Kando, S. Bulanov, Stepan, Moon Jeong, Tae, Bulanov, Sergey, Valenta, Petr, Korn, Georg, Timur, Esirkepov, Kevin Koga, James, Pirozhkov, Alexander, Masaki, Kando, and S. Bulanov, Stepan

Abstract

The relativistic-flying mirror is a well-known plasma optic which further intensifies a reflected laser field through the Lorentz $\gamma$-factor of the mirror. A high-power laser pulse reflected and focused by a relativistic-flying parabolic mirror experiences the double Doppler effect and as a result its wavelength and pulse duration are shortened by a factor of $4\gamma^2$ in the relativistic limit of $\beta\rightarrow 1$. A laser focus travels with a relativistic speed of the mirror. The relativistic-flying motion of the laser focus makes electric and magnetic field distributions of the focus complicated, and the mathematical expressions describing the field distributions of the focus become of fundamental interest. We present analytical expressions describing the field distribution formed by an ideal flying mirror which has a perfect reflectance over the entire surface and wavelength range. The peak field strength of an incident laser pulse with a center wavelength of $\lambda_0$ and a beam radius of $w_0$ is enhanced by a factor of $\gamma^3(w_0/\lambda_0)$ in the relativistic limit. The electron-positron pair production is investigated in the context of invariant fields based on the enhanced electromagnetic field. The pair production rate under the relativistic-flying laser focus is modified by the Lorentz $\gamma$-factor and the beam radius- wavelength ratio $(w_0/\lambda_0)$. We show that the electron-positron pair can be created by colliding two counter-propagating relativistic-flying laser focuses, each of which is formed when a 180 TW laser pulse is reflected by a relativistic-flying parabolic mirror with a $\gamma= 12.2$, in vacuum.

Published
2021

29. Ultra-strong attosecond laser focus produced by a relativistic-flying parabolic mirror

Author

Moon Jeong, Tae, Bulanov, Sergey, Valenta, Petr, Korn, Georg, Timur, Esirkepov, Kevin Koga, James, Pirozhkov, Alexander, Moon Jeong, Tae, Bulanov, Sergey, Valenta, Petr, Korn, Georg, Timur, Esirkepov, Kevin Koga, James, and Pirozhkov, Alexander

Abstract

The reflection of a laser pulse by a relativistic-moving mirror is one of fundamental problems encountered in the high-power laser and plasma interactions. It is well known that a laser pulse reflected by a relativistic-flying mirror experiences the intensification of its intensity, frequency up-shift, and shortening of pulse duration. Thus, it is of fundamental interest to have a mathematical solution expressing the intensity distribution of a laser pulse reflected by a relativistic-flying parabolic mirror. In this paper, we present analytical and mathematical formulae describing the electromagnetic field of a laser pulse reflected and focused by the relativistic-flying parabolic mirror.

Published
2021

33. Optical probing of relativistic plasma singularities

Author

Esirkepov, Timur Zh., primary, Mu, Jie, additional, Gu, Yanjun, additional, Jeong, Tae Moon, additional, Valenta, Petr, additional, Klimo, Ondrej, additional, Koga, James K., additional, Kando, Masaki, additional, Neely, David, additional, Korn, Georg, additional, Bulanov, Sergei V., additional, and Pirozhkov, Alexander S., additional

Published
2020
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34. Relativistic Flying Mirrors as a Compact Source of Coherent Short-Wavelength Radiation

Author

Valenta, Petr, primary, Esirkepov, Timur Zh., additional, Koga, James K., additional, Pirozhkov, Alexander S., additional, Kando, Masaki, additional, Kawachi, Tetsuya, additional, Liu, Yung-Kun, additional, Fang, Patrick, additional, Chen, Pisin, additional, Mu, Jie, additional, Korn, Georg, additional, Klimo, Ondřej, additional, and Bulanov, Sergei V., additional

Published
2020
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35. The hunting as a theme of a nobel representation and its display in a equipment of the Czech hinting lodges

Author

VALENTA, Petr

Subjects
reprezentace, šlechta, architektura, hunt, lov, architecture, representation, nobility
Abstract

The diploma thesis concerns with issues of the hunt as a part of the nobleman representation and its image in facilities of the Czech hunting chateaus. The introductory chapters of this these describe the phenomena of hunt, its evolution and its image in fine art. These chapters are subsequently filled in iconographical drafts, which helped to form the shape of the decoration of chateaus. The core of the thesis are chapters concern with theme of the hunting architecture and artistic evaluation of the group nobleman hunting residences. Specifically, these are chateaus Svaty Hubert, Humprecht, Diana, Ohrada and Kozel. In the final chapters the author introduces an issue of nobleman representation. Into its context he situates the theme of hunt and pieces of fine arts connected with it. These chapters also contain a few examples of the aristocrats who knew how to use the hunt for their personal representation. For illustration is this thesis amended by picture attachment.

Published
2019

36. Dva „vikinské" náramky z Nového Knína, okr. Příbram Jejich původ, prvkové složení a technologie výroby.

Author

Korený, Rastislav, Vopálenský, Michal, Kumpová, Ivana, Msallamová, Šárka, Drábková, Klára, Fikrle, Marek, Valenta, Petr, and Frána, Jaroslav

Subjects
ANTHROPOLOGY, ARCHAEOLOGICAL finds, ELEMENTAL analysis, BRACELETS, DECORATION & ornament, BRASS, SILVER
Abstract

Copyright of Archeologické Rozhledy is the property of Academy of Sciences of the Czech Republic, Institute of Archaeology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2021
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37. Optical probing of relativistic plasma singularities

Author

Timur, Esirkepov, Mu, Jie, Gu, Yanjun, Moon Jeong, Tae, Valenta, Petr, Klimo, Ondrej, Kevin Koga, James, Kando, Masaki, Neely, David, Korn, Georg, Bulanov, Sergey, and Pirozhkov, Alexander

Subjects
Astrophysics::High Energy Astrophysical Phenomena
Abstract

Singularities in multi-stream flows of relativistic plasmas can efficiently produce coherent high-frequency radiation, as exemplified in the concepts of the Relativistic Flying Mirror and Burst Intensification by Singularity Emitting Radiation. Direct observation of these singularities is challenging due to their extreme sharpness (tens of nanometers), relativistic velocity, and transient non-local nature. We propose to use an ultrafast (a few light cycles) optical probe for identifying relativistic plasma singularities. Our estimations and Particle-in-Cell simulations show that this diagnostic is feasible.

Published
2020

38. Using Relativistic Mirrors for Photon-Photon Scattering

Author

S., Bulanov Stepan and Valenta, Petr

Subjects
Physics::Optics
Abstract

The large discrepancy between measurements and theoretical predictions of photon-photon is mainly due to the very small cross section and need for high photon fluxes. We previously theoretically investigated the possibility of measuring it using relativistic mirrors. We further investigate this using particle-in-cell simulations and estimate the laser parameters necessary to observe photon-photon scattering and pair creation., 国際学会HEDLA2018参加

Published
2018

39. Forms and Function of Refrain in Roman Lyrical Poetry up to the End of the 1st Century AD

Author

Valenta, Petr, Bažil, Martin, and Kuťáková, Eva

Subjects
refrain - incremental repetition - Roman lyrics|- Catulus - Vergilius - Seneca, refrén - přírůstková repetice - římská lyrika - Catullus - Vergilius - Seneca
Abstract

This work focuses on refrains in Latin lyrics texts, from the beginning of Latin literature until the end of 1th century AD. At first, the term "refrain" will be determined, with its different forms, which can be found in Latin lyrics; afterwards individual examples of refrains will be stated and put in contrast to their Greek models, if they exist. The thesis will try to determine the function of refrains in a concrete literary genre and the difference between them. Powered by TCPDF (www.tcpdf.org)

Published
2018

44. Legislation Comment: Opt-In to Coordination Proceeding According to the Czech Insolvency Law

Author

Valenta, Petr and Moravec, Tomáš

Abstract

The European Insolvency Regulation enables to coordinate recovery procedures of the group of companies within the EU member states on voluntary basis. In the matter of approval of coordinated proceeding the national rules for approval of recovery proceedings are referred. The authors therefore deal with the question whether and how it is possible to apply national legislation on decision to opt-in to coordination proceeding in the frame of Czech law. The paper also focuses on question who gives approval to opt-in and what kind of majority is needed. Furthermore there is a question raised whether the conditions for approval according to national rules should have been passed to European level of legislation.

Published
2021

47. Stereoselective synthesis of [beta]-hydroxy enamines, aminocyclopropanes, and 1,3-amino alcohols via asymmetric catalysis

Author

Valenta, Petr, Carroll, Patrick J., and Walsh, Patrick J.

Subjects
Alcohols -- Chemical properties, Amines -- Chemical properties, Cyclopropane compounds -- Structure, Cyclopropane compounds -- Chemical properties, Hydrogenation -- Analysis, Substitution reactions -- Analysis, Chemistry
Abstract

Tandem methods are described for the catalytic asymmetric preparation of enantioenriched [beta]-hydroxy (E)-enamines and aminocyclopropanes. The diastereoselective hydrogenation of enantioenriched (E)-trisubstituted hydroxy enamines is described for generating 1,2-disubstituted-1,3-amino alcohols.

Published
2010

48. Směs

Author

Vyhlídal, J., Matuška, Fr., Ptáček, T., Košák, Frant., Zíbrt, Č., Vaňous, Fr., Šimánek, J., Valenta, Petr, Schwarz, Jan, Fritz, J. A., Goller, Th., Hanuš, Vojtěch, Pixa, K., Štorch, Leop., Kalivoda, Bol., Žofka, Fr., Malec, J., and Souhrada, J.

Published
1914

50. Kritická mediální pedagogika - teoretická východiska a přínos pro mediální výchovu

Author

Valenta, Petr, Sak, Petr, Havlík, Radomír, and Kartous, Bohumil

Subjects
ComputingMilieux_COMPUTERSANDEDUCATION, kritická mediální pedagogika, mediální gramotnost, kritická pedagogika, knowledge, power, symbolic power, kritická teorie, diskurs, symbolická moc, media literacy, critical pedagogy, vědění, ideology, critical media pedagogy, discourse, ideologie, media, moc, critical theory, média
Abstract

Critical media pedagogy - theoretical underpinnigs and contribution to media education Dissertation Mgr. Petr Valenta Keywords critical theory, critical media pedagogy, media literacy, critical pedagogy, media, ideology, discourse, power, symbolic power, knowledge Abstract The theoretical dissertation analyzes the traditional media education model issues, which derives from the orientation of media literacy on the dominant paradigm of media effects research in media studies. Media education takes the "media effects concept" and uses it to organize its own teaching practice. Theoretical dependence on media studies and the concept media effects leads media education to protectionism and normativity, which is reflected in the directive establishment of knowledge, skills and values pupils may acquire. This situation has negative effect on efforts of developing critical media thinking as independent on social authorities. Moreover, media education potentially reproduces the dominant modes of knowledge about media and society, without revealing them as social constructions. The theoretical basis for changing the paradigm of media education to become more critical and transformative practice able to form the student's personality as an autonomous, critical- thinking and committed citizen is presented in the second...

Published
2016

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