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1. Properties of non-cryogenic DTs and their relevance for fusion

Author

Ruhl, Hartmut, Bild, Christian, Jaura, Ondrej Pego, Lienert, Matthias, Nöth, Markus, Abril, Rafael Ramis, and Korn, Georg

Subjects
Physics - Plasma Physics
Abstract

In inertial confinement fusion, pure deuterium-tritium (DT) is usually used as a fusion fuel. In their paper \cite{gus2011effect}, Guskov et al. instead propose using low-Z compounds that contain DT and are non-cryogenic at room temperature. They suggest that these fuels (here called non-cryogenic DTs) can be ignited for $\rho_{DT} R \geq 0.35 \, gcm^{-2}$ and $kT_{e} \geq 14 \, keV$, i.e., parameters which are more stringent but still in the same order of magnitude as those for DT. In deriving these results the authors in \cite{gus2011effect} assume that ionic and electronic temperatures are equal and consider only electronic stopping power. Here, we show that at temperatures greater than 10 keV, ionic stopping power is not negligible compared to the electronic one. We demonstrate that this necessarily leads to higher ionic than electronic temperatures. Both factors facilitate ignition compared to the model used in \cite{gus2011effect} showing that non-cryogenic DT compounds are more versatile than previously known. In addition, we find that heavy beryllium borohydride ignites more easily than heavy beryllium hydride, the best-performing fuel found by Guskov et al. Our results are based on an analytical model that incorporates a detailed stopping power analysis, as well as on numerical simulations using an improved version of the community hydro code MULTI-IFE. Alleviating the constraints and costs of cryogenic technology and the fact that non-cryogenic DT fuels are solids at room temperature open up new design options for fusion targets with $Q>100$ and thus contribute to the larger goal of making inertial fusion energy an economically viable source of clean energy. In addition, the discussion presented here generalizes the analysis of fuels for energy production., Comment: 16 pages, 20 figures

Published
2024

3. Numerical validation of a volume heated mixed fuel concept

Author

Ruhl, Hartmut and Korn, Georg

Subjects
Physics - Plasma Physics
Abstract

While the underlying physics of the ICF approach to nuclear fusion is well understood and a technological implementation of the indirect drive variant of the ICF paradigm has recently been given at NIF commercially viable ICF concepts for energy production and beyond are still under investigation. In the present paper we propose core elements of a novel fast direct drive mixed fuel ICF concept that might be commercially viable. It makes use of ultra-short, ultra-intense laser pulses interacting with nano-structured accelerators embedded into the mixed fuel context. The embedded accelerator technology promises to be highly efficient and capable of fast fuel heating without fuel pre-compression but is not the focus of the paper. It is the predominant purpose of the mixed fuel concept to avoid cryogenic fuels since specific chemical compounds exist that are capable of chemically binding $\text{DT}$. To which extent mixed fuel concepts can work is investigated in the paper. Under the assumption that the proposed direct drive fast heating concept is capable of rapidly heating the fuel uniformly to sufficiently high temperatures it is found with the help of MULTI, an ICF community code, that a $\text{pBDT}$ mixed fuel design can reach a target yield $Q_T >1$ with $\text{MJ}$ level external isochoric heating. The simulations are used to validate a theoretical scaling model of the mixed fuel reactive hydro flows. The paper does not present a reactor point design., Comment: 7 pages, 5 figures

Published
2023

4. Uniform volume heating of mixed fuels within the ICF paradigm

Author

Ruhl, Hartmut and Korn, Georg

Subjects
Physics - Plasma Physics
Abstract

The paper investigates the feasibility of achieving uniform high-power volume heating for a fusion reactor concept employing a mixed fuel composition involving $\text{pBDT}$. The realm of mixed fuel fusion concepts remains relatively unexplored. The pursuit of uniform high-power volume heating presents a technological challenge, yet it bears ramifications for fusion reactor designs. In this study, we introduce the proposition of employing embedded nano-structures that represent structured foams. These structured foams interact with short-pulse lasers, thereby achieving ultra-high power volume heating both within the fuel and the adjacent hohlraums. Notably, structured foams exhibit superior efficiency compared to unstructured foams, plasma or surfaces when it comes to absorbing high-power, short-pulse lasers. The suggested incorporation of these embedded structured foams interacting with an array of ultra-short laser pulses offers a high laser absorption power density, along with meticulous control over energy and power distribution within the fuel, both in spatial and temporal dimensions. This holds the potential for the realization of fusion reactors characterized by straight-forward designs and low complexity, where $Q_F \approx Q_T > 1$ is expected for the fuel and target gains. Depending on the fuel composition they can be strong neutron sources., Comment: 8 pages, 10 figures

Published
2023

5. High current ionic flows via ultra-fast lasers for fusion applications

Author

Ruhl, Hartmut and Korn, Georg

Subjects
Physics - Accelerator Physics, Physics - Plasma Physics
Abstract

In the present paper we introduce a new accelerator concept for ions. The accelerator is nano-structured and can consist of a range of materials. It is capable of generating large ionic currents at moderate ion energies. The nano-structures can be tailored towards the accelerator thus being capable of driving ion beams with very high efficiency. The accelerator is powered by laser arrays consisting of many repetitive and efficient lasers in the $100 \, \text{J}$ range with ultra-short intense laser pulses. Combining nano-structures and the proposed ultra-short pulse lasers can lead to new levels of spatio-temporal control and energy efficiency for fusion applications., Comment: 5 pages, 5 figures

Published
2022

6. A laser-driven mixed fuel nuclear fusion micro-reactor concept

Author

Ruhl, Hartmut and Korn, Georg

Subjects
Physics - Plasma Physics
Abstract

We propose a laser-driven near-solid density nano-structured micro-reactor concept operating with mixed nuclear fusion fuels. The micro-reactor is capable of making use of a range of neutronic and aneutronic fuels. Its core parts consists of an embedded nanoscopic nuclear fuel based laser-driven nano-accelerator that is capable of producing non-thermal fuel distributions almost instantly., Comment: 11 pages, 12 figures

Published
2022

7. 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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8. 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. Synergic Cherenkov-Compton Radiation

Author

Bulanov, Sergei V., Sasorov, Pavel V., Bulanov, Stepan S., and Korn, Georg

Subjects
Physics - Plasma Physics
Abstract

In vacuum with an induced by strong electromagnetic wave refraction index larger than unity, an ultra-relativistic electron emits Cherenkov radiation. During the interaction with this wave the electron also radiates photons via the Compton scattering. Synergic Cherenkov-Compton process can be observed by colliding laser accelerated electrons with a high intensity electromagnetic pulse. Extremely high energy photons cannot be emitted via the Cherenkov radiation because the vacuum refraction index tends to unity at these energies. Experiments on studying these phenomena will reveal the properties of vacuum predicted by nonlinear quantum electrodynamics., Comment: 5 pages, 1 figure

Published
2019
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12. 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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13. Properties of Finite Amplitude Electromagnetic Waves propagating in the Quantum Vacuum

Author

Kadlecová, Hedvika, Bulanov, Sergei V., and Korn, Georg

Subjects
Physics - Plasma Physics, High Energy Physics - Theory
Abstract

We study two counter-propagating electromagnetic waves in the vacuum within the framework of the Heisenberg-Euler formalism in quantum electrodynamics. We show that the non-linear field equations decouple for ordinary wave case and can be solved exactly. We solve the non-linear field equations assuming the solution in a form of a Riemann wave. We discuss the properties of the nonlinear electromagnetic wave propagating in the quantum vacuum, such as the wave steepening, subsequent generation of high order harmonics and electromagnetic shock wave formation with electron-positron pair generation at the shock wave front., Comment: 11 pages, 5 figures

Published
2019
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14. Imprint of the stochastic nature of photon emission by electrons on the proton energy spectra in the laser-plasma interaction

Author

Wan, Feng, Xue, Kun, Dou, Zhen-Ke, Hatsagortsyan, Karen Z., Yan, Wenchao, Khikhlukha, Danila, Bulanov, Sergei V., Korn, Georg, Zhao, Yong-Tao, Xu, Zhong-Feng, and Li, Jian-Xing

Subjects
Physics - Plasma Physics
Abstract

The impact of stochasticity effects (SEs) in photon emissions on the proton energy spectra during laser-plasma interaction is theoretically investigated in the quantum radiation-dominated regime, which may facilitate SEs experimental observation. We calculate the photon emissions quantum mechanically and the plasma dynamics semiclassically via two-dimensional particle-in-cell simulations. An ultrarelativistic plasma generated and driven by an ultraintense laser pulse head-on collides with another strong laser pulse, which decelerates the electrons due to radiation-reaction effect and results in a significant compression of the proton energy spectra because of the charge separation force. In the considered regime the SEs are demonstrated in the shift of the mean energy of the protons up to hundreds of MeV. This effect is robust with respect to the laser and target parameters and measurable in soon available strong laser facilities.

Published
2019
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15. Photon scattering by a 4π-spherically-focused ultrastrong electromagnetic wave

Author

Jeong, Tae Moon, Bulanov, Sergei V, Sasorov, Pavel V, Korn, Georg, Koga, James K, and Bulanov, Stepan S

Subjects
Mathematical Sciences, Physical Sciences, Chemical Sciences, General Physics
Abstract

The scattering of high-power probe laser pulses by tightly focused ultrastrong laser pulses has been investigated through a semiclassical approach using a perturbative method based on the Born approximation. Under a 4π-spherically-focused ultrastrong light field, the electric permittivity and magnetic permeability tensors for vacuum are calculated from the Euler-Heisenberg Lagrangian to show the nonlinear birefringent property of vacuum. And, from permittivity and permeability tensors, the scattering potential is derived for the Born approximation. The first-order solution of the Born approximation is taken as an electric field scattered from the 4π-spherically-focused laser pulse when a probe laser pulse propagates through the focused laser field. The differential cross section of the nonlinear birefringent vacuum is derived, and the number of photons scattered from the nonlinear birefringent vacuum is analyzed in the laser power range of 10-1000 PW.

Published
2020

16. 4π-spherically focused electromagnetic wave: diffraction optics approach and high-power limits.

Author

Jeong, Tae Moon, Bulanov, Sergei Vladimirovich, Sasorov, Pavel Vasilievich, Bulanov, Stepan Sergeevich, Koga, James Kevin, and Korn, Georg

Subjects
Communications Engineering, Engineering, Electrical Engineering, Physical Sciences, Optical Physics, Electrical and Electronic Engineering, Communications Technologies, Optics, Communications engineering, Electronics, sensors and digital hardware, Atomic, molecular and optical physics
Abstract

The focused field and its intensity distribution achieved by the 4π-spherical focusing scheme are investigated within the framework of diffraction optics. Generalized mathematical formulas describing the spatial distributions of the focused electric and magnetic fields are derived for the transverse magnetic and transverse electric mode electromagnetic waves with and without the orbital angular momentum attribute. The mathematical formula obtained shows no singularity in the field in the focal region and satisfies the finite field strength and electromagnetic energy conditions. The 4π-spherical focusing of the transverse magnetic mode electromagnetic wave provides the highest field strength at the focus and the peak intensity reaches 1026 W/cm2 for the laser power of 100 PW at 800 nm wavelength. As an example of using the mathematical formula, the electron-positron pair production via the Schwinger mechanism is analyzed and compared with previous results.

Published
2020

17. Multi-GeV electron-positron beam generation from laser-electron scattering

Author

Vranic, Marija, Klimo, Ondrej, Korn, Georg, and Weber, Stefan

Subjects
Physics - Plasma Physics
Abstract

The new generation of laser facilities is expected to deliver short (10 fs - 100 fs) laser pulses with 10 - 100 PW of peak power. This opens an opportunity to study matter at extreme intensities in the laboratory and provides access to new physics. Here we propose to scatter GeV-class electron beams from laser-plasma accelerators with a multi-PW laser at normal incidence. In this configuration, one can both create and accelerate electron-positron pairs. The new particles are generated in the laser focus and gain relativistic momentum in the direction of laser propagation. Short focal length is an advantage, as it allows the particles to be ejected from the focal region with a net energy gain in vacuum. Electron-positron beams obtained in this setup have a low divergence, are quasi-neutral and spatially separated from the initial electron beam. The pairs attain multi-GeV energies which are not limited by the maximum energy of the initial electron beam. We present an analytical model for the expected energy cutoff, supported by 2D and 3D particle-in-cell simulations. The experimental implications, such as the sensitivity to temporal synchronisation and laser duration is assessed to provide guidance for the future experiments.

Published
2017

18. Laser boron fusion reactor with picosecond petawatt block ignition

Author

Hora, Heinrich, Eliezer, Shalom, Wang, Jiaxiang, Korn, Georg, Nissim, Noaz, Xu, Yanxia, Lalousis, Paraskevas, Kirchhoff, Goetz, and Miley, George H.

Subjects
Physics - Plasma Physics, 78/06
Abstract

For developing a laser boron fusion reactor driven by picosecond laser pulses of more than 30 petawatts power, advances are reported about computations for the plasma block generation by the dielectric explosion of the interaction. Further results are about the direct drive ignition mechanism by a single laser pulse without the problems of spherical irradiation. For the sufficiently large stopping lengths of the generated alpha particles in the plasma results from other projects can be used., Comment: 10 pages, 5 figures, extended tex from lectures on 5th and 6th June 2017in Shanghai/China

Published
2017
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19. Plasma Equilibrium inside Various Cross-Section Capillary Discharges

Author

Bagdasarov, Gennadiy, Sasorov, Pavel, Boldarev, Alexey, Olkhovskaya, Olga, Gasilov, Vladimir, Gonsalves, Anthony J., Barber, Samuel, Bulanov, Stepan, Schroeder, Carl B., van Tilborg, Jeroen, Esarey, Eric, Leemans, Wim P., Levato, Tadzio, Margarone, Daniele, Korn, Georg, and Bulanov, Sergei V.

Subjects
Physics - Plasma Physics
Abstract

Plasma properties inside a hydrogen-filled capillary discharge waveguide were modeled with dissipative magnetohydrodynamic simulations to enable analysis of capillaries of circular and square cross-sections implying that square capillaries can be used to guide circularly-symmetric laser beams. When the quasistationary stage of the discharge is reached, the plasma and temperature in the vicinity of the capillary axis has almost the same profile for both the circular and square capillaries. The effect of cross-section on the electron beam focusing properties were studied using the simulation-derived magnetic field map. Particle tracking simulations showed only slight effects on the electron beam symmetry in the horizontal and diagonal directions for square capillary., Comment: 6 pages, 10 figures

Published
2017
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20. Laser beam coupling with capillary discharge plasma for laser wakefield acceleration applications

Author

Bagdasarov, Gennadiy, Sasorov, Pavel, Gasilov, Vladimir, Boldarev, Alexey, Olkhovskaya, Olga, Benedetti, Carlo, Bulanov, Stepan, Gonsalves, Anthony Joseph, Mao, Hann-Shin, Schroeder, Carl B., van Tilborg, Jeroen, Esarey, Eric, Leemans, Wim P., Levato, Tadzio, Margarone, Daniele, and Korn, Georg

Subjects
Physics - Plasma Physics
Abstract

One of the most robust methods, demonstrated up to date, of accelerating electron beams by laser-plasma sources is the utilization of plasma channels generated by the capillary discharges. These channels, i.e., plasma columns with a minimum density along the laser pulse propagation axis, may optically guide short laser pulses, thereby increasing the acceleration length, leading to a more efficient electron acceleration. Although the spatial structure of the installation is simple in principle, there may be some important effects caused by the open ends of the capillary, by the supplying channels etc., which require a detailed 3D modeling of the processes taking place in order to get a detailed understanding and improve the operation. However, the discharge plasma, being one of the most crucial components of the laser-plasma accelerator, is not simulated with the accuracy and resolution required to advance this promising technology. In the present work, such simulations are performed using the code MARPLE. First, the process of the capillary filling with a cold hydrogen before the discharge is fired, through the side supply channels is simulated. The main goal of this simulation is to get a spatial distribution of the filling gas in the region near the open ends of the capillary. A realistic geometry is used for this and the next stage simulations, including the insulators, the supplying channels as well as the electrodes. Second, the simulation of the capillary discharge is performed with the goal to obtain a time-dependent spatial distribution of the electron density near the open ends of the capillary as well as inside the capillary. Finally, to evaluate effectiveness of the beam coupling with the channeling plasma wave guide and electron acceleration, modeling of laser-plasma interaction was performed with the code INF&RNO, Comment: 11 pages, 9 figures

Published
2017
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21. Gravitational wave generation by interaction of high power lasers with matter. Part II: Ablation and Piston models

Author

Kadlecová, Hedvika, Klimo, Ondřej, Weber, Stefan, and Korn, Georg

Subjects
General Relativity and Quantum Cosmology, High Energy Physics - Theory, Physics - Plasma Physics
Abstract

We analyze theoretical models of gravitational waves generation in the interaction of high intensity laser with matter, namely ablation and piston models. We analyse the generated gravitational waves in linear approximation of gravitational theory. We derive the analytical formulas and estimates for the metric perturbations and the radiated power of generated gravitational waves. Furthermore we investigate the characteristics of polarization and the behaviour of test particles in the presence of gravitational wave which will be important for the detection., Comment: 22 pages, 32 images. arXiv admin note: substantial text overlap with arXiv:1602.08904

Published
2016

22. Gravitational wave generation by interaction of high power lasers with matter using shock waves

Author

Kadlecová, Hedvika, Klimo, Ondřej, Weber, Stefan, and Korn, Georg

Subjects
General Relativity and Quantum Cosmology
Abstract

Gravitational wave generation by a strong shock wave in the interaction of high power laser with matter is analyzed in linear approximation of gravitational theory. The analytical formulas and estimates are derived for the metric perturbations and the radiated power of the generated gravitational waves. Furthermore the characteristics of polarization and the behavior of test particles are investigated in the presence of gravitational wave which will be important for the detection., Comment: 10 pages, 5 images

Published
2016
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23. Gravitational waves generated by laser accelerated relativistic ions

Author

Gelfer, Evgeny, Kadlecová, Hedvika, Klimo, Ondřej, Weber, Stefan, and Korn, Georg

Subjects
Physics - Plasma Physics, General Relativity and Quantum Cosmology
Abstract

The generation of gravitational waves by laser accelerated relativistic ions is investigated. The piston and light sail models of laser plasma acceleration are considered and analytical expressions for space-time metric perturbation are derived. For both models the dependence of gravitational waves amplitude on the laser and plasma parameters as well as gravitational waves spectrum and angular distribution are examined, Comment: 13 pages

Published
2015
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24. Attractors and chaos of electron dynamics in electromagnetic standing wave

Author

Esirkepov, Timur Zh., Bulanov, Stepan S., Koga, James K., Kando, Masaki, Kondo, Kiminori, Rosanov, Nikolay N., Korn, Georg, and Bulanov, Sergei V.

Subjects
Physics - Plasma Physics
Abstract

The radiation reaction radically influences the electron motion in an electromagnetic standing wave formed by two super-intense counter-propagating laser pulses. Depending on the laser intensity and wavelength, either classical or quantum mode of radiation reaction prevail, or both are strong. When radiation reaction dominates, electron motion evolves to limit cycles and strange attractors. This creates a new framework for high energy physics experiments on an interaction of energetic charged particle beams and colliding super-intense laser pulses., Comment: 7 pages, 4 figures

Published
2014
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27. On extreme field limits in high power laser matter interactions: radiation dominant regimes in high intensity electromagnetic wave interaction with electrons

Author

Bulanov, Sergei V., Esirkepov, Timur Zh., Kando, Masaki, Koga, James K., Nakamura, Tatsufumi, Bulanov, Stepan S., Zhidkov, Alexei G., Kato, Yoshiaki, and Korn, Georg

Subjects
Physics - Plasma Physics
Abstract

We discuss the key important regimes of electromagnetic field interaction with charged particles. Main attention is paid to the nonlinear Thomson/Compton scattering regime with the radiation friction and quantum electrodynamics effects taken into account. This process opens a channel of high efficiency electromagnetic energy conversion into hard electromagnetic radiation in the form of ultra short high power gamma ray flashes., Comment: 15 pages, 10 figures, invited talk presented at the SPIE-2013 conference, Prague, Czech Republic, Apr. 15, 2013

Published
2013
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28. MHD Simulation of Various Cross-Section Capillary Discharges

Author

Bagdasarov, Gennadiy, Sasorov, P. V., Boldarev, Alexey, Olkhovskaya, Olga, Gonsalves, Anthony, Bulanov, Stepan Sergeevich, Schroeder, C. B., Esarey, E., Leemans, W. P., Levato, Tadzio, Margarone, Daniele, Korn, Georg, Bulanov, S. V., Gasilov, Vladimir, Kawachi, Tetsuya, editor, Bulanov, Sergei V., editor, Daido, Hiroyuki, editor, and Kato, Yoshiaki, editor

Published
2018
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29. High Power Gamma-Ray Flash Generation in Ultra Intense Laser-Plasma Interaction

Author

Nakamura, Tatsufumi, Koga, James K., Esirkepov, Timur Zh., Kando, Masaki, Korn, Georg, and Bulanov, Sergei V.

Subjects
Physics - Plasma Physics
Abstract

When high-intensity laser interaction with matter enters the regime of dominated radiation reaction, the radiation losses open the way for producing short pulse high power gamma ray flashes. The gamma-ray pulse duration and divergence are determined by the laser pulse amplitude and by the plasma target density scale length. On the basis of theoretical analysis and particle-in-cell simulations with the radiation friction force incorporated, optimal conditions for generating a gamma-ray flash with a tailored overcritical density target are found., Comment: 12 pages, 5 figures Accepted for publication in Physical Review Letters (this http://prl.aps.org/)

Published
2011
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30. Second Harmonic Generation in a 140 fs Petawatt Laser System

Author

Fischer, Peter, primary, Gonzalez-Izquierdo, Bruno, additional, Scutelnic, Valeriu, additional, Hartmann, Jens, additional, Speicher, Martin, additional, Bruce, Sandra, additional, Helal, Ahmed, additional, Quevedo, Hernan, additional, Spinks, Michael, additional, Medina, Eli, additional, Schollmeier, Marius, additional, Steinke, Sven, additional, Korn, Georg, additional, and Gaul, Erhard, additional

Published
2023
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31. Diagnostics for precise target positioning in ~10^22 W/cm2 laser-plasma experiments

Author

Vishnyakov, Evgeny, primary, Sagisaka, Akito, primary, Ogura, Koichi, primary, Pikuz, Tatiana, primary, Armstrong, C, primary, Pikuz, Sergey, primary, Gonzalez-Izquierdo, Bruno, primary, Esirkepov, Timur, primary, Yan, Wenchao, primary, Jeong, Tae Moon, primary, Singh, Sushil, primary, Hadjisolomou, Prokopis, primary, Finke, Ondřej, primary, Grittani, Gabriele Maria, primary, Nevrkla, Michal, primary, Lazzarini, Carlo Maria, primary, Velyhan, Andriy, primary, Hayakawa, Takehito, primary, Fukuda, Yuji, primary, Koga, James, primary, Ishino, Masahiko, primary, Kondo, Kotaro, primary, Miyasaka, Yasuhiro, primary, Kon, Akira, primary, Nishikino, Masaharu, primary, Nosach, Evgeny, primary, Khikhlukha, Danila, primary, Tsygvintsev, Ilia, primary, Kumar, Deepak, primary, Nejdl, Jaroslav, primary, Margarone, Daniele, primary, Sasorov, Pavel, primary, Weber, Stefan, primary, kando, masaki, primary, Kiriyama, Hiromitsu, primary, Kato, Yoshiaki, primary, Korn, Georg, primary, Kondo, Kiminori, primary, Bulanov, Sergei, primary, Kawachi, Tetsuya, primary, and Pirozhkov, Alexander, primary

Published
2023
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32. Instruments for best target position determination in the high-intensity laser-solid interaction experiment

Author

Vishnyakov, Eugene A., primary, Sagisaka, Akito, additional, Ogura, Koichi, additional, Pikuz, Tatiana A., additional, Armstrong, Chris D., additional, Pikuz, Sergey A., additional, Gonzalez-Izquierdo, Bruno, additional, Esirkepov, Timur Z., additional, Yan, Wenchao, additional, Jeong, Tae Moon, additional, Singh, Sushil, additional, Hadjisolomou, Prokopis, additional, Finke, Ondrej, additional, Grittani, Gabriele Maria, additional, Nevrkla, Michal, additional, Lazzarini, Carlo Maria, additional, Velyhan, Andriy, additional, Hayakawa, Takehito, additional, Fukuda, Yuji, additional, Koga, James K., additional, Ishino, Masahiko, additional, Kondo, Kotaro, additional, Miyasaka, Yasuhiro, additional, Kon, Akira, additional, Nishikino, Masaharu, additional, Nosach, Evgeny V., additional, Khikhlukha, Danila, additional, Tsygvintsev, Ilya P., additional, Kumar, Deepak, additional, Nejdl, Jaroslav, additional, Margarone, Daniele, additional, Sasorov, Pavel V., additional, Kando, Masaki, additional, Kiriyama, Hiromitsu, additional, Korn, Georg, additional, Kondo, Kiminori, additional, Bulanov, Sergei V., additional, Kawachi, Tetsuya, additional, and Pirozhkov, Alexander S., additional

Published
2023
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36. Investigation of Proton Beam-Driven Fusion Reactions Generated by an Ultra-Short Petawatt-Scale Laser Pulse

Author

Schollmeier, Marius S., primary, Shirvanyan, Vahe, additional, Capper, Christie, additional, Steinke, Sven, additional, Higginson, Adam, additional, Hollinger, Reed, additional, Morrison, John T., additional, Nedbailo, Ryan, additional, Song, Huanyu, additional, Wang, Shoujun, additional, Rocca, Jorge J., additional, and Korn, Georg, additional

Published
2022
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37. The ELIMAIA Laser–Plasma Ion Accelerator: Technological Commissioning and Perspectives

Author

Schillaci, Francesco, primary, Giuffrida, Lorenzo, additional, Tryus, Maksym, additional, Grepl, Filip, additional, Stancek, Stanislav, additional, Velyhan, Andriy, additional, Istokskaia, Valeriia, additional, Levato, Tadzio, additional, Petringa, Giada, additional, Cirrone, Giuseppe, additional, Cupal, Josef, additional, Koubiková, Lucia, additional, Peceli, Davorin, additional, Jarboe, Jeffrey, additional, de Castro Silva, Tarcio, additional, Cuhra, Martin, additional, Chagovets, Timofej, additional, Kantarelou, Vasiliki, additional, Tosca, Marco, additional, Ivanyan, Vahagn, additional, Greplová Žáková, Martina, additional, Psikal, Jan, additional, Truneček, Roman, additional, Cimmino, Anna, additional, Versaci, Roberto, additional, Olšovlcová, Veronika, additional, Kramer, Daniel, additional, Bakule, Pavel, additional, Ridky, Jan, additional, Korn, Georg, additional, Rus, Bedrich, additional, and Margarone, Daniele, additional

Published
2022
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39. 4pi-spherically focused Electromagnetic Wave: Diffraction Optics Approach and High-Power Limits

Author

Moon Jeong, Tae, Bulanov, Sergey, Sasorov, Pavel, S. Bulanov, Stepan, Kevin Koga, James, and Korn, Georg

Abstract

The focused field and its intensity distribution achieved by the 4pi-spherical focusing scheme are investigated within the framework of diffraction optics. Generalized mathematical formulas describing the spatial distributions of the focused electric and magnetic fields are derived for the transverse magnetic and transverse electric mode electromagnetic waves with and without the orbital angular momentum attribute. The mathematical formula obtained shows no singularity in the field in the focal region and satisfies the finite field strength and electromagnetic energy conditions. The 4pi-spherical focusing of the transverse magnetic mode electromagnetic wave provides the highest field strength at the focus and the peak intensity reaches 10^26^ W/cm^2^ for the laser power of 100 PW at 800 nm wavelength. As an example of using the mathematical formula, the electron-positron pair production via the Schwinger mechanism is analyzed and compared with previous results.

Published
2020

40. Instruments for best target position determination in the high-intensity laser-solid interaction experiment

Author

Menoni, Carmen S., Nejdl, Jaroslav, Vishnyakov, Eugene A., Sagisaka, Akito, Ogura, Koichi, Pikuz, Tatiana A., Armstrong, Chris, Pikuz, Sergey A., Gonzalez-Izquierdo, Bruno, Esirkepov, Timur Zh., Yan, Wenchao, Jeong, Tae Moon, Singh, Sushil, Hadjisolomou, Prokopis, Finke, Ondrej, Grittani, Gabriele Maria, Nevrkla, Michal, Lazzarini, Carlo Maria, Velyhan, Andriy, Hayakawa, Takehito, Fukuda, Yuji, Koga, James, Ishino, Masahiko, Kondo, Kotaro, Miyasaka, Yasuhiro, Kon, Akira, Nishikino, Masaharu, Nosach, Yevhen, Khiklukha, Danila, Tsygvintsev, Ilya, Kumar, Deepak, Nejdl, Jaroslav, Margarone, Daniele, Sasorov, Pavel V., Kando, Masaki, Kiriyama, Hiromitsu, Korn, Georg, Kondo, Kiminori, Bulanov, Sergei V., Kawachi, Tetsuya, and Pirozhkov, Alexander S.

Published
2023
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41. Multi probes measurements at the PALS Facility Research Centre during high intense laser pulse interactions with various target materials

Author

De Marco Massimo, Krása Josef, Cikhardt Jakub, Consoli Fabrizio, De Angelis Riccardo, Pfeifer Miroslav, Krůs Miroslav, Dostál Jan, Margarone Daniele, Picciotto Antonino, Velyhan Andriy, Klír Daniel, Dudžák Roman, Limpouch Jiří, and Korn Georg

Subjects
Physics, QC1-999
Abstract

During the interaction of high intense laser pulse with solid target, a large amount of hot electrons is produced and a giant Electromagnetic Pulse (EMP) is generated due to the current flowing into the system target–target holder, as well as due to the escaping charged particles in vacuum. EMP production for different target materials is investigated inside and outside the target chamber, using monopole antenna, super wide-band microstrip antenna and Moebius antenna. The EMP consists in a fast transient magnetic field lasting hundreds of nanosecond with frequencies ranging from MHz to tens of GHz. Measurements of magnetic field and return target current in the range of kA were carried out by an inductive target probe (Cikhardt J. et al. Rev. Sci. Instrum. 85 (2014) 103507).

Published
2018
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45. 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

46. 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

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