Your search keyword '"S. Hüller"' showing total 37 results

1. Multibeam laser–plasma interaction at the Gekko XII laser facility in conditions relevant for direct-drive inertial confinement fusion

Author

G. Cristoforetti, P. Koester, S. Atzeni, D. Batani, S. Fujioka, Y. Hironaka, S. Hüller, T. Idesaka, K. Katagiri, K. Kawasaki, R. Kodama, D. Mancelli, Ph. Nicolai, N. Ozaki, A. Schiavi, K. Shigemori, R. Takizawa, T. Tamagawa, D. Tanaka, A. Tentori, Y. Umeda, A. Yogo, and L. A. Gizzi

Subjects

inertial confinement fusion, laser plasma interaction, parametric instabilities, Applied optics. Photonics, TA1501-1820

Abstract

Laser–plasma interaction and hot electrons have been characterized in detail in laser irradiation conditions relevant for direct-drive inertial confinement fusion. The experiment was carried out at the Gekko XII laser facility in multibeam planar target geometry at an intensity of approximately $3\times {10}^{15}$ W/cm2. Experimental data suggest that high-energy electrons, with temperatures of 20–50 keV and conversion efficiencies of $\eta

Published

2023

2. Multibeam Laser Plasma Interaction at Gekko XII laser facility in conditions relevant for Direct-Drive Inertial Confinement Fusion

Author

G. Cristoforetti, P. Koester, S. Atzeni, D. Batani, S. Fujioka, Y. Hironaka, S. Hüller, T. Idesaka, K. Katagiri, K. Kawasaki, R. Kodama, D. Mancelli, Ph. Nicolai, N. Ozaki, A. Schiavi, K. Shigemori, R. Takizawa, T. Tamagawa, D. Tanaka, A. Tentori, Y. Umeda, A. Yogo, L. A. Gizzi, Istituto Nazionale di Ottica (INO), National Research Council of Italy | Consiglio Nazionale delle Ricerche (CNR), Dipartimento di Scienze di Base e Applicate per l'Ingegneria (SBAI), Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome] (UNIROMA), Centre d'Etudes Lasers Intenses et Applications (CELIA), Université de Bordeaux (UB)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Centre National de la Recherche Scientifique (CNRS), Institute for Laser Engineering, Osaka University, Osaka (ILE), Centre de Physique Théorique [Palaiseau] (CPHT), École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), Institute for Laser Engineering, Osaka (ILE), Graduate School of Engineering, Osaka University, Institute of Plasma Physics and Lasers, Hellenic Mediterranean University Research Centre, Rethymnon, Institute of Laser Engineering, Osaka University, Osaka, Japan, affiliation inconnue, Institute of Laser Engineering and the Graduate School of Engineering, Osaka University, Osaka University [Osaka], and Institute for Integrated Radiation and Nuclear Science, Kyoto University, Sennan, Osaka

Subjects

[PHYS]Physics [physics], Nuclear and High Energy Physics, Nuclear Energy and Engineering, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials

Abstract

Laser–plasma interaction and hot electrons have been characterized in detail in laser irradiation conditions relevant for direct-drive inertial confinement fusion. The experiment was carried out at the Gekko XII laser facility in multibeam planar target geometry at an intensity of approximately $3\times {10}^{15}$ W/cm2. Experimental data suggest that high-energy electrons, with temperatures of 20–50 keV and conversion efficiencies of $\eta , were mainly produced by the damping of electron plasma waves driven by two-plasmon decay (TPD). Stimulated Raman scattering (SRS) is observed in a near-threshold growth regime, producing a reflectivity of approximately $0.01\%$ , and is well described by an analytical model accounting for the convective growth in independent speckles. The experiment reveals that both TPD and SRS are collectively driven by multiple beams, resulting in a more vigorous growth than that driven by single-beam laser intensity.

Published

2023

3. MULTI-fs - A computer code for laser-plasma interaction in the femtosecond regime.

Author

Rafael Ramis, K. Eidmann, J. Meyer-ter-Vehn, and S. Hüller

Published

2012

4. Linking agricultural food production and rural tourism in the Kazbegi district – A qualitative study

Author

S. Hüller, Ingrid-Ute Leonhäuser, and Jennifer Heiny

Subjects

0106 biological sciences, Economic growth, Natural resource economics, Rural tourism, Greater Caucasus/Georgia, 010501 environmental sciences, 01 natural sciences, Tourism, Agricultural marketing, Qualitative research, Urbanization, Economics, lcsh:Agriculture (General), lcsh:Science (General), 0105 earth and related environmental sciences, Marketing, business.industry, Tourism geography, Subsistence agriculture, General Medicine, Local agri-food products, Livelihood, lcsh:S1-972, Agriculture, business, lcsh:Q1-390, 010606 plant biology & botany

Abstract

As in many transition countries, also in Georgia rural urban migration as well as migration from the agricultural sector takes place. This also applies to the Kazbegi district, a mountainous region in the Greater Caucasus of Georgia. The main activity in the district is subsistence farming, while only a few agricultural producers are commercially active. As the region offers beautiful nature, during the last decade tourism has been on the rise, while a dwindling interest in the agricultural sector can be observed. However, the growth in tourism also provides opportunities for small-scale agricultural producers to increase their income by marketing their surplus production to the local tourism sector and thereby improving their livelihoods. In turn, an increase in local agri-food products offered might have a positive effect on the tourism sector. Thus, establishing linkages of agricultural food production and rural tourism might contribute to the economic development of the district and even counteract migration to the capital and from the agricultural sector. Through a qualitative study, we aim at identifying local agri-food products suitable for being marketed to the tourism sector and efficient marketing options. In order to do so, we analyze local agri-food chains. Exploratory interviews, focus group discussions and expert interviews provide data for a qualitative content analysis. First results show that food products which require little technological equipment for processing and do not underlie strict food safety standards, like for example honey, seem to be adequate to tap marketing potentials with regard to rural tourism.

Published

2017

5. Weibull-type speckle distributions as a result of saturation in stimulated scattering processes

Author

A. Porzio and S. Hüller

Subjects

Physics, Scattering, business.industry, Forward scatter, Order statistic, Physics::Optics, Condensed Matter Physics, Instability, Atomic and Molecular Physics, and Optics, Speckle pattern, Optics, Statistical physics, Electrical and Electronic Engineering, Extreme value theory, business, Random variable, Weibull distribution

Abstract

During the propagation of an optically smoothed laser beam through a warm plasma the speckle field pattern and the corresponding speckle intensity distribution are modified in time and along the laser propagation direction. It is shown here that the laser–plasma interaction can change the character of speckle statistics from an initially exponential-type limit law to a Weibull-type law. The Weibull distribution is characterized by a power-law-type behavior in a limited interval of the random variable, which is, in the present case, the speckle intensity. The properties of the speckle distributions are studied using methods of extremal and order statistics. The scattering instability process (here stimulated Brillouin forward scattering) causing the change in speckle statistics has an onset behavior associated with a “critical gain” value, as pointed out in work by Rose and DuBois (1993b). The saturation of the instability process as a function of intensity explains the limited interval of the Weibull-type speckle distribution. The differences in the type of the speckle statistics are analyzed by using “excess over threshold” methods relying on the generalized Pareto distribution, which clearly brings to evidence the transition from an exponential type distribution to the Weibull-type distribution as a function of the instability gain value, that is, from the regime below critical gain to values above the critical gain.

Published

2015

6. 3.4 - Efficient thermal infrared emitter with high radiant power

Author

S. Hüller, G. Gerlach, M. Schossig, V. Norkus, and T. Ott

Subjects

Thermal infrared, Materials science, business.industry, Optoelectronics, Radiant energy, business, Common emitter

Published

2015

7. Experimental investigation of the interplay between optical and plasma smoothing induced on a laser megajoule beamline

Author

S. Depierreux, D. Pesme, R. Wrobel, D. T. Michel, P.-E. Masson-Laborde, G. Riazuelo, E. Alozy, N. Borisenko, A. Orekhov, M. Casanova, A. Casner, M. Grech, A. Heron, S. Huller, P. Loiseau, C. Meyer, P. Nicolaï, C. Riconda, V. Tikhonchuk, and C. Labaune

Subjects

Physics, QC1-999

Abstract

Past experiments [S. Depierreux et al., Phys. Rev. Lett. 102, 195005 (2009)10.1103/PhysRevLett.102.195005] have exhibited the plasma-induced incoherence (PII) process and the reduced imprint in the multikilojoule regime when a thin low-density foam is disposed in front of a solid target. Complementary experiments have been designed to analyze the mechanisms involved, the important parameters, and the role of the optical smoothing in the case of the laser megajoule. Forward stimulated Brillouin scattering (FSBS) is identified as the dominant mechanism governing the angular spray of the laser. FSBS also increases the laser bandwidth and imparts levels of temporal and spatial incoherencies beyond the present capacities of the optical smoothing of the megajoule laser facilities. Such a PII beam becomes suitable to achieve the high degree of irradiation uniformity required to experiment high-convergence efficient direct-drive inertial confinement fusion configurations at the megajoule scale which would otherwise require major changes in the laser chains. By reducing backscattering losses and/or allowing less optically applied smoothing, PII could relax the constraints imposed on the laser system and open the road to an increase in the energy coupled to the target in indirect-drive experiments.

Published

2023

8. Self‐consistent plasma profile steepening in presence of laser light with mixed polarization

Author

S. Hüller and Eduardo Ahedo

Subjects

Physics, Linear polarization, Plane of incidence, Plasma, Ponderomotive force, Condensed Matter Physics, Polarization (waves), Laser, law.invention, Wavelength, Physics::Plasma Physics, law, Electric field, Physics::Space Physics, Atomic physics

Abstract

Ponderomotive profile steepening and resonance absorption of a flowing stratified laser produced plasma are investigated self‐consistently when both cases of linear polarization with respect to the plane of incidence (s and p polarization) are combined. This analysis enables a representation of ‘‘mixed’’ polarized light, desirable for application in advanced codes modeling laser plasmas. Profile steepening forms (i) a layer around the turning point of the light, and, embedded therein, (ii) a thinner sublayer at the critical surface, where plasma waves are excited. The structure and the density transition of both layers are determined as a function of dimensionless parameters, i.e., the angle of incidence and the light intensities corresponding to both polarizations (related to plasma temperature and light wavelength). The plasma flow changes from sub‐ to supersonic in the steepened region; the sound speed depends on the intensity of the longitudinal electric field. In contrast to the purely polarized case...

Published

1994

9. High-order harmonic radiation from solid layers irradiated by subpicosecond laser pulses

Author

S. Hüller and Juergen Meyer-ter-Vehn

Subjects

Free electron model, Physics, Statistics::Theory, Statistics::Applications, Nonlinear optics, Electron, Lambda, Laser, Atomic and Molecular Physics, and Optics, law.invention, Nuclear magnetic resonance, law, Lattice (order), High harmonic generation, Irradiation, Atomic physics

Abstract

High-order harmonic radiation from a thin solid layer illuminated by a subpicosecond laser pulse is investigated. For laser intensities ${\mathit{I}}_{\mathit{L}}$ and wavelengths ${\ensuremath{\lambda}}_{\mathit{L}}$ with ${\mathit{I}}_{\mathit{L}}$${\ensuremath{\lambda}}_{\mathit{L}}^{2}$g${10}^{14}$ W \ensuremath{\mu}${\mathrm{m}}^{2}$/${\mathrm{cm}}^{2}$, free electrons oscillate with amplitudes \ensuremath{\delta} extending over many lattice periods ${\mathit{l}}_{\mathit{c}}$ of the solid and, due to interaction with the lattice, radiate a spectrum of harmonics with a sharp cutoff at ${\mathit{n}}_{\mathrm{max}}$\ensuremath{\simeq}2\ensuremath{\pi}\ensuremath{\delta}/${\mathit{l}}_{\mathit{c}}$. Laser pulses (of order 100 fs) shorter than the lattice disintegration time are required. The harmonics emission crucially depends on electron correlations. Competing spontaneous atomic radiation is discussed.

Published

1993

10. Exploring Dense Plasma by Laser Compression. A simulation study

Author

S. Hüller, Jürgen Meyer-ter-Vehn, and T. Aoki

Subjects

Physics, Phase transition, Series (mathematics), Hydrogen, Rarefaction, chemistry.chemical_element, Plasma, Mechanics, Condensed Matter Physics, Laser, Compression (physics), law.invention, Shock (mechanics), Classical mechanics, chemistry, law

Abstract

A series of hydrodynamic simulations is presented, related to laser compression of matter. In particular, low entropy compression of hydrogen is studied in order to reach the metallic phase transition. Anomalous hydrodynamic phenomena like shock splitting and rarefaction shocks occuring in the neighbourhood of the phase transition are investigated for a special configuration.

Published

1993

11. Time‐resolved absorption spectroscopy as a diagnostic of the thermal front zone of laser‐illuminated thin plastic foils

Author

A. Sezen, R. Benattar, and S. Hüller

Subjects

Fluid Flow and Transfer Processes, Physics, Absorption spectroscopy, business.industry, Computational Mechanics, General Physics and Astronomy, Plasma, Radiation, Condensed Matter Physics, Laser, Electromagnetic radiation, law.invention, Wavelength, Optics, Mechanics of Materials, law, Plasma diagnostics, Spectroscopy, business

Abstract

A new diagnostic method of the thermal transport zone of a laser‐created plasma at short wavelength (0.26 μm) is presented. This method uses soft x‐ray spectroscopy and allows one to deduce the temperature of the propagating thermal front during the laser interaction. Time‐resolved X–UV spectra of the rear side of thin plastic foils coated on their front side with a thin layer of gold of different thicknesses (50–300 A) are presented. The layers of gold must be sufficiently thin in order to avoid the fact that their spectrum perturbs the heating of the foil by radiative effects. The plastic thicknesses are chosen less or equal to the ablation thickness of the material for the laser illumination conditions, i.e., about 6 μm. The spectrum emitted by the gold layer plays the role of a backlighter that probes the plastic heated by the laser. Computer simulations including radiation (multi) confirm the weak effect of radiation heating particularly for the thinner layers of gold.

Published

1992

12. Nonstationary stimulated Brillouin backscattering

Author

S. Hüller, A. M. Rubenchik, and P. Mulser

Subjects

Fluid Flow and Transfer Processes, Physics, Electromagnetic wave equation, Condensed matter physics, Computational Mechanics, General Physics and Astronomy, Plasma, Condensed Matter Physics, Wave equation, Molecular physics, Light scattering, Brillouin zone, Physics::Plasma Physics, Mechanics of Materials, Brillouin scattering, Reflection (physics), Boundary value problem

Abstract

Stimulated Brillouin scattering (SBS) is investigated one dimensionally under conditions when the typical growth rate is comparable with the ion acoustic frequency. The equations for the three‐wave interaction are modified according to strong coupling. Studies of SBS in homogeneous plasma slabs exhibit the onset of steady‐state solutions. A reflecting rear boundary can cause the backscattering to show nonstationary behavior. In addition, inhomogeneous plasma profiles that include the critical density are studied using the electromagnetic wave equation together with a hydrodynamic approach for the ion fluid.

Published

1991

13. Stimulated Brillouin scattering off nonlinear ion acoustic waves

Author

S. Hüller

Subjects

Fluid Flow and Transfer Processes, Physics, Condensed matter physics, Scattering, Computational Mechanics, General Physics and Astronomy, Acoustic wave, Condensed Matter Physics, Ion acoustic wave, Ion trapping, Molecular physics, Ion, Brillouin zone, Physics::Plasma Physics, Mechanics of Materials, Brillouin scattering, High harmonic generation

Abstract

The influence of nonlinear ion acoustic waves on the stimulated Brillouin backscattering process is investigated with the help of the hydrodynamic description of the ion fluid. Numerical calculations were systematically performed for a wide range of relevant parameters in the presence of an ideal plasma. It is shown that the scaling of steady‐state solutions due to spatially amplified scattering deviates significantly from the theory where only linearized ion acoustic waves are considered. An analytic approach using harmonic expansion confirms the similarity parameters found numerically. The significance of kinetic effects, such as anomalous heat transport due to fast ions and ion trapping in the presence of weakly damped ion waves, is also studied using particle simulations.

Published

1991

14. Resonance Absorption by Nonlinear Electron Plasma Waves

Author

P. Mulser, H. Schnabl, A. Bergmann, and S. Hüller

Subjects

Physics, Nonlinear system, Wavelength, Condensed matter physics, Physics::Plasma Physics, Waves in plasmas, Nonlinear resonance, Vlasov equation, General Physics and Astronomy, Resonance, Landau damping, Plasma, Atomic physics

Abstract

By solving the Vlasov equation in the capacitor model approximation it is shown that the linear theory of resonance absorption yields the correct conversion factors for laser intensities at which the electron plasma wave is highly nonlinear or may even break. At Nd-laser wavelength and 1 keV plasma temperature the linear limit is exceeded at least by a factor of 200 in intensity. Over a wide range the structure of the nonlinear Langmuir wave is governed by a fluidlike behaviour on which strong nonlinear Landau damping is imposed.

Published

1991

15. Order statistics of high-intensity speckles in stimulated Brillouin scattering and plasma-induced laser beam smoothing

Author

S Hüller, A Porzio, and J. Robiche

Subjects

Physics, Work (thermodynamics), Explosive material, business.industry, Order statistic, Physics::Optics, General Physics and Astronomy, Plasma, Speckle pattern, Optics, Brillouin scattering, business, Smoothing, Laser beams

Abstract

We have studied plasma-induced smoothing due to stimulated Brillouin scattering (SBS) under the aspect of the extremal statistics of smoothed laser beams. As pointed out in the work by Rose and DuBois (1994 Phys. Rev. Lett. 72 2883), scattered light can be subject to uncontrolled (or even ‘explosive’) behaviour, associated with a critical gain value for SBS. In this work we show how this critical behaviour can be predicted on the basis of the order statistics of laser speckle fields, and we analyse the transition to uncontrolled behaviour of the laser beam due to the dominance of high intensity speckles.

Published

2013

16. Nonstationary Stimulated Brillouin Backscattering in Inhomogeneous Density Profiles

Author

P. Mulser, H. Schnabl, and S. Hüller

Subjects

Physics, Brillouin zone, Steady state, Scattering, Reflection (physics), Specular reflection, Absorption (electromagnetic radiation), Electromagnetic radiation, Computational physics, Ion

Abstract

In inhomogeneous density profiles electromagnetic light is partially absorbed and reflected at the critical surface. In those profiles where the reflection is non-negligible the counterpropagating electromagnetic waves cause standing ion density fluctuations which act as a source for backscattering. To study this effect a simplified model based on the usual three wave interaction as well as an extended model using the nonlinear hydrodynamic description of the ion fluid have been investigated. In certain parameter regions at which absorption and reflection at the critical surface are of comparable magnitude no steady state in the evolution of the back-scattered light can establish over long time intervals. The spectral composition of the backscattering signal shows a strong competition between the frequency shifted stimulated scattering (SBS) and the unshifted reflection process.

Published

1991

17. Effect of electron collisions on transport coefficients induced by the inverse bremsstrahlung absorption in plasmas

Author

A. Bendib, S. Hüller, K. Bendib, K. Mohammed El Hadj, and A. Tahraoui

Subjects

Physics, Electric field, Isotropy, Bremsstrahlung, Fokker–Planck equation, Electron, Plasma, Atomic number, Collisionality, Atomic physics, Condensed Matter Physics, Computational physics

Abstract

The transport coefficients of fully ionized plasmas under the influence of a high-frequency electric field are derived solving numerically the electron Fokker–Planck equation using a perturbation method, parametrized as a function of the electron mean-free-path λei compared to the spatial scales L. The isotropic and anisotropic contributions of the inverse bremsstrahlung heating are considered. Electron-electron collision terms are kept in the analysis, which allows us to consider with sufficient accuracy to describe plasmas with arbitrary atomic number Z. Practical numerical fits of the transport coefficients are proposed as functions of Z and the collisionality parameter λei∕L.

Published

2005

18. Modeling of laser ponderomotive self-focusing in plasma within the paraxial complex geometrical optics approach.

Author

A Ruocco, G Duchateau, V T Tikhonchuk, and S Hüller

Subjects

GAUSSIAN beams, SPECKLE interference, LASERS, PLASMA density, POWER density, GEOMETRICAL optics

Abstract

Laser ponderomotive self-focusing in an underdense homogeneous plasma is studied within the paraxial complex geometrical optics (PCGO) approach implemented in a hydrodynamic code in two-dimensional planar geometry. The self-focusing of a PCGO Gaussian beam is compared to simulations performed with a paraxial electromagnetic code. Good agreement has been found for beam powers less than three times the critical power and for plasma densities 5%–10% of the critical density. Besides Gaussian beams, PCGO allows to reproduce spatially modulated beams by superposition of Gaussian beams, mimicking a speckle pattern. Although the statistics of speckle patterns generated with PCGO reproduces well the speckle statistics of optically smoothed beams, a PCGO speckle is larger than optical speckles, carrying thus higher power such that they overestimate self-focusing effects. To overcome this issue, an algorithm is proposed within PCGO framework: it consists of superposing several Gaussian beams forming a speckle such that self-focusing effects are eventually well controlled. It is found that the superposition of three Gaussian beams with appropriate initial conditions leads to a reduction of the PCGO speckle intensity enhancement. [ABSTRACT FROM AUTHOR]

Published

2019

19. Modeling of energy transfer between two crossing smoothed laser beams in a plasma with flow profile.

Author

A. Colaitis, S. Hüller, V. T. Tikhonchuk, D. Pesme, G. Duchateau, and A. Porzio

Published

2016

20. Simulation of laser-plasma interaction experiments with gas-filled hohlraums on the LIL facility.

Author

P. Loiseau, P.-E. Masson-Laborde, D. Teychenné, M.-C. Monteil, M. Casanova, D. Marion, G. Tran, G. Huser, C. Rousseaux, S. Hüller, A. Héron, and D. Pesme

Published

2016

21. Reaction of a bis(pentafulvene)titanium complex with an N-heterocyclic olefin: C-H-activation leads to resonance between a titanium vinyl and titanium alkylidene complex.

Author

Fischer M, Roy MMD, Hüller S, Schmidtmann M, and Beckhaus R

Abstract

The N-heterocyclic olefin (NHO) ImMe 4 CH 2 (2) (ImMe 4 CH 2 = (MeCNMe) 2 CCH 2 ) was employed for the synthesis of the titanium complex 3 derived from an NHO ligand precursor. By reacting 2 with the bis(π-η 5 :σ-η 1 -pentafulvene)titanium complex 1a, the terminal ylidic methylene unit of 2 is deprotonated by the quaternary exocyclic carbon atom of one pentafulvene ligand of 1a yielding the titanium complex 3 which bears an anionic NHO ligand (ImMe 4 CH - ). 3 was characterized by NMR spectroscopy, single crystal X-ray diffraction and quantum chemical calculations. The latter highlight that 3 is best described as a titanium vinyl complex with significant contribution of the titanium alkylidene resonance structure.

Published

2022

22. Crossed beam energy transfer between optically smoothed laser beams in inhomogeneous plasmas.

Author

Hüller S, Raj G, Luo M, Rozmus W, and Pesme D

Abstract

Crossed beam energy transfer, CBET, in high-intensity laser-plasma interaction is investigated for the case of optically smoothed laser beams. In the two approaches to laser-driven inertial confinement fusion experiments, the direct-drive and the indirect-drive, CBET is of great importance because it governs the coupling of laser energy to the plasma. We use the two-dimensional wave-coupling code Harmony to simulate the transfer between two laser beams with speckle structure that overlap in a plasma with an inhomogeneous flow profile. We compare the CBET dynamics for laser beams with spatial incoherence and with spatio-temporal incoherence; in particular we apply the smoothing techniques using random phase plates (RPPs) and smoothing by spectral dispersion (SSD), respectively. It is found that for laser beams (wavelength λ 0 ) with intensities ( I L ) above I L  ∼ 2 × 10 15  W cm -2 ( λ 0 /0.35 µm) -2 ( T e /keV), both the so-called plasma-induced smoothing as well as self-focusing in intense laser speckles induce temporal incoherence; the latter affects the CBET and the angular distribution of the light transmitted behind the zone of beam overlap. For RPP-smoothed incident beams, the resulting band width of the transmitted light can already be of the same order as the effective band width of the SSD available at major laser facilities. We examine the conditions when spatio-temporal smoothing techniques become efficient for CBET. This article is part of a discussion meeting issue 'Prospects for high gain inertial fusion energy (part 1)'.

Published

2020

23. Environmental and socio-economic resources at the landscape level - Potentials for sustainable land use in the Georgian Greater Caucasus.

Author

Theissen T, Aurbacher J, Bedoshvili D, Felix-Henningsen P, Hanauer T, Hüller S, Kalandadze B, Leonhäuser IU, Magiera A, Otte A, Shavgulidze R, Tedoradze G, and Waldhardt R

Subjects

Agriculture, Animals, Cattle, Ecology, Female, Humans, Socioeconomic Factors, Conservation of Natural Resources, Ecosystem

Abstract

Mountain regions cover one quarter of the Earth's terrestrial surface, and are both valuable and vulnerable areas with complex human-environmental interrelationships. In this coupled system, land-use changes induced by political or socio-economic transformations generate consequences for ecological landscape functions like soil productivity and species richness, and integrative land-use concepts provide the potential of a sustainable land development. In the Kazbegi region in the central Greater Caucasus of Georgia, these transformations further lead to landscape-structure change and population marginalization. Hence, we developed three agricultural land-use scenarios that meet Agenda 2030 Sustainable Development Goals to ensure a sustainable rural land development and the conservation of mountain ecosystems. Our normative scenario approach integrates quantitative and qualitative findings of empirical research in landscape ecology, soil science, vegetation ecology as well as agronomics and socio-economics. According to the examined environmental and socio-economic resources, we defined various scenario logics and normative assumptions that combine optimized livestock production (in dairy cow keeping and cattle fattening) with ecological limitations to maintain the functioning of mountain ecosystems. The rule-based scenarios achieved measurably increased outputs in biomass yields, livestock production and related revenues at the regional scale. Further, GIS generated scenario maps demonstrate the related land-use patterns spatially explicit and in high resolution, and visualize the alternative future from local to the regional scale. In conclusion, scenario development helps to determine region-specific and integrated land-use options to provide a sound base for land users and decision makers. Based on research on multiple landscape functions, this approach can assist sustainable land development in a mountain region., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

24. Impact of Laser Beam Speckle Structure on Crossed Beam Energy Transfer via Beam Deflections and Ponderomotive Self-Focusing.

Author

Raj G and Hüller S

Abstract

The role of laser speckle structure (hot spots) and its ponderomotive self-focusing (PSF), in crossed beam energy transfer (CBET), of smoothed laser beams is investigated in an inhomogeneous expanding plasma. Numerical simulations using the code harmony in two spatial dimensions, demonstrate how self-focusing of laser hot spots in crossed beams can significantly affect the transfer of energy from one beam to the other in addition to the stimulated Brillouin scattering (SBS) process. It is shown that for sufficiently intense laser beams, when the laser hot spots exceed the criterion for self-focusing in a plasma with flow, the angular spread of transmitted light beams increases considerably with the intensity, which arises in particular, in expanding plasma where significant beam deflection is observed. It is shown for the first time that besides SBS, the contribution of speckle structure, PSF, and deflections of the intense hot spots in multiple speckle beams to CBET, therefore matters.

Published

2017

25. Spatial and Transient Effects during the Amplification of a Picosecond Pulse Beam by a Nanosecond Pump.

Author

Neuville C, Baccou C, Debayle A, Masson-Laborde PE, Hüller S, Casanova M, Marion D, Loiseau P, Glize K, Labaune C, and Depierreux S

Abstract

Amplification of a picosecond pulse beam by a lower intensity nanosecond pulse beam was experimentally observed in a flowing plasma. Modifications of intensity distributions in beam focal spots due to nonhomogeneous energy transfer and its transient regime were investigated. The mean transferred power reached 57% of the incident power of the nanosecond pulse beam. An imaging diagnostic allowed the intensity profile of the picosecond pulse beam to be determined, bringing to evidence the spatial nonuniformity of energy transfer in the amplified beam. This diagnostic also enabled us to observe the temporal evolution of the speckle intensity distribution because of the transfer. These results are reproduced by numerical simulations of two complementary codes. The method and the observed effects are important for the understanding of experiments with multiple crossing laser beams in plasmas.

Published

2016

26. Driven spatially autoresonant stimulated Raman scattering in the kinetic regime.

Author

Chapman T, Hüller S, Masson-Laborde PE, Heron A, Pesme D, and Rozmus W

Abstract

The autoresonant behavior of Langmuir waves excited by stimulated Raman scattering (SRS) is clearly identified in particle-in-cell (PIC) simulations in an inhomogeneous plasma. As previously shown via a 3-wave coupling model [T. Chapman et al., Phys. Plasmas 17, 122317 (2010)], weakly kinetic effects such as trapping can be described via an amplitude-dependent frequency shift that compensates the dephasing of the resonance of SRS due to the inhomogeneity. The autoresonance (AR) leads to phase locking and to growth of the Langmuir wave beyond the spatial amplification expected from Rosenbluth's model in an inhomogeneous profile [M. N. Rosenbluth, Phys. Rev. Lett. 29, 565 (1972)]. Results from PIC simulations and from a 3-wave coupling code show very good agreement, leading to the conclusion that AR arises even beyond the so-called weakly kinetic regime., (© 2012 American Physical Society)

Published

2012

27. Experimental evidence of short light pulse amplification using strong-coupling stimulated brillouin scattering in the pump depletion regime.

Author

Lancia L, Marquès JR, Nakatsutsumi M, Riconda C, Weber S, Hüller S, Mancić A, Antici P, Tikhonchuk VT, Héron A, Audebert P, and Fuchs J

Abstract

The energy transfer from a long (3.5 ps) pump pulse to a short (400 fs) seed pulse due to stimulated Brillouin backscattering in the strong-coupling regime is investigated. The two pulses, both at the same wavelength of 1.057 microm are quasicounterpropagating in a preformed underdense plasma. Relative amplification factors for the seed pulse of up to 32 are obtained. The maximum obtained amplified energy is 60 mJ. Simulations are in agreement with the experimental results and suggest paths for further improvement of the amplification scheme.

Published

2010

28. Laser smoothing and imprint reduction with a foam layer in the multikilojoule regime.

Author

Depierreux S, Labaune C, Michel DT, Stenz C, Nicolaï P, Grech M, Riazuelo G, Weber S, Riconda C, Tikhonchuk VT, Loiseau P, Borisenko NG, Nazarov W, Hüller S, Pesme D, Casanova M, Limpouch J, Meyer C, Di-Nicola P, Wrobel R, Alozy E, Romary P, Thiell G, Soullié G, Reverdin C, and Villette B

Abstract

This Letter presents first experimental results of the laser imprint reduction in fusion scale plasmas using a low-density foam layer. The experiments were conducted on the LIL facility at the energy level of 12 kJ with millimeter-size plasmas, reproducing the conditions of the initial interaction phase in the direct-drive scheme. The results include the generation of a supersonic ionization wave in the foam and the reduction of the initial laser fluctuations after propagation through 500 mum of foam with limited levels of stimulated Brillouin and Raman scattering. The smoothing mechanisms are analyzed and explained.

Published

2009

29. Laser-beam smoothing induced by stimulated brillouin scattering in an inhomogeneous plasma.

Author

Loiseau P, Morice O, Teychenné D, Casanova M, Hüller S, and Pesme D

Abstract

We present results of two-dimensional simulations of the stimulated Brillouin scattering (SBS) of an optically smoothed laser beam propagating in an expanding plasma. In the weak damping limit, both backscattered and transmitted light waves exhibit an additional spatiotemporal incoherence, which is shown to be induced by SBS taking place in an inhomogeneous plasma. This mechanism is not related to laser-beam self-focusing and is thus complementary to plasma-induced smoothing [A. J. Schmitt and B. B. Afeyan, Phys. Plasmas 5, 503 (1998)]. The incoherence induced by SBS in the entrance part of the plasma could reduce the growth of parametric instabilities developing further inside the plasma and is able to significantly enlarge the spreading angle of the transmitted light. The angular width of the backscattered light is also found to be significantly larger than the aperture angle of the incident beam.

Published

2006

30. Probing hot and dense laser-induced plasmas with ultrafast XUV pulses.

Author

Dobosz S, Doumy G, Stabile H, D'Oliveira P, Monot P, Réau F, Hüller S, and Martin P

Abstract

In this Letter, we demonstrate the instantaneous creation of a hot solid-density plasma generated by focusing an intense femtosecond, high temporal contrast laser on an ultrathin foil (100 nm) in the 10(18) W/cm2 intensity range. The use of high-order harmonics generated in a gas jet, providing a probe beam of sufficiently short wavelengths to penetrate such a medium, enables the study of the dynamics of this plasma on the 100 fs time scale. The comparison of the transmission of two successive harmonics permits us to determine the electronic density and the temperature with accuracies better than 15%, never achieved up to this date in the regime of laser pulses at relativistic intensity.

Published

2005

31. Electron kinetic effects in the nonlinear evolution of a driven ion-acoustic wave.

Author

Riconda C, Heron A, Pesme D, Hüller S, Tikhonchuk VT, and Detering F

Abstract

The electron kinetic effects are shown to play an important role in the nonlinear evolution of a driven ion-acoustic wave. The numerical simulation results obtained (i) with a hybrid code, in which the electrons behave as a fluid and the ions are described along the particle-in-cell (PIC) method, are compared with those obtained (ii) with a full-PIC code, in which the kinetic effects on both species are retained. The electron kinetic effects interplay with the usual fluid-type nonlinearity to give rise to a broadband spectrum of ion-acoustic waves saturated at a low level, even in the case of a strong excitation. This low asymptotic level might solve the long-standing problem of the small stimulated Brillouin scattering reflectivity observed in laser-plasma interaction experiments.

Published

2005

32. Enhanced spatiotemporal laser-beam smoothing in gas-jet plasmas.

Author

Malka V, Faure J, Hüller S, Tikhonchuk VT, Weber S, and Amiranoff F

Abstract

Spatiotemporal smoothing of large-scale laser intensity fluctuations is observed for a laser beam focused into underdense helium plasmas. This smoothing is found to be severely enhanced when focusing the laser beam into a helium gas jet. In contrast to other experiments with preformed plasmas, the average and the peak laser intensities are well below the threshold for ponderomotive self-focusing. The coherence characteristics of the transmitted light are measured for various electron densities, and the smoothing effect is explained by multiple scattering of laser light on self-induced density perturbations.

Published

2003

33. Nonlinear propagation of a randomized laser beam through an expanding plasma.

Author

Myatt J, Pesme D, Hüller S, Maximov A, Rozmus W, and Capjack CE

Abstract

We present simulations of the interaction of a random phase plate laser beam with an underdense, expanding plasma for conditions typical of recent LULI experiments. We use a new code that describes the paraxial propagation of the laser, accounting for the nonlinear evolution of the plasma in an isothermal fluid description with weakly collisional electrons. The transmitted light, in excellent agreement with experiment, is shown to be strongly redshifted as a result of self-phase modulation due to self-focusing.

Published

2001

34. Femtosecond laser-guided electric discharge in air.

Author

Tzortzakis S, Prade B, Franco M, Mysyrowicz A, Hüller S, and Mora P

Abstract

The filament due to the self-guided propagation of an infrared femtosecond laser pulse in atmospheric-pressure air is used to trigger and guide an electric discharge. The long low density plasma channel due to the filament is first heated by the Joule effect during an initial transient plasma stage. The heated channel of recombined gas then hydrodynamically expands radially. The onset of a discharge starts when the density depression on axis reaches the threshold discharge value. This model is supported by detailed experimental and numerical analysis.

Published

2001

35. Formation of plasma channels in the interaction of a nanosecond laser pulse at moderate intensities with helium gas jets.

Author

De Wispelaere E, Malka V, Hüller S, Amiranoff F, Baton S, Bonadio R, Casanova M, Dorchies F, Haroutunian R, and Modena A

Abstract

We report on a detailed study of channel formation in the interaction of a nanosecond laser pulse with a He gas jet. A complete set of diagnostics is used in order to characterize the plasma precisely. The evolution of the plasma radius and of the electron density and temperature are measured by Thomson scattering, Schlieren imaging, and Mach-Zehnder interferometry. In gas jets, one observes the formation of a channel with a deep density depletion on axis. Because of ionization-induced defocusing which increases the size of the focal spot and decreases the maximum laser intensity, no channel is observed in the case of a gas-filled chamber. The results obtained in various gas-jet and laser conditions show that the channel radius, as well as the density along the propagation axis, can be adjusted by changing the laser energy and gas-jet pressure. This is a crucial issue when one wants to adapt the channel parameters in order to guide a subsequent high-intensity laser pulse. The experimental results and their comparison with one-dimensional (1D) and two-dimensional hydrodynamic simulations show that the main mechanism for channel formation is the hydrodynamic evolution behind a supersonic electron heat wave propagating radially in the plasma. It is also shown from 2D simulations that a fraction of the long pulse can be self-guided in the channel it creates. The preliminary results and analyses on this subject have been published before [V. Malka et al., Phys. Rev. Lett. 79, 2979 (1997)].

Published

1999

36. Uniform multimegabar shock waves in solids driven by laser-generated thermal radiation.

Author

Löwer T, Sigel R, Eidmann K, Földes IB, Hüller S, Massen J, Tsakiris GD, Witkowski S, Preuss W, Nishimura H, Shiraga H, Kato Y, Nakai S, and Endo T

Published

1994

37. High-order harmonic radiation from solid layers irradiated by subpicosecond laser pulses.

Author

Hüller S and Meyer-ter-Vehn J

Published

1993