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37 results on '"Malko, S."'

1. Proton Radiography Inversions with Source Extraction and Comparison to Mesh Methods

Author

Griff-McMahon, J., Valenzuela-Villaseca, V., Malko, S., Fiksel, G., Rosenberg, M. J., Schaeffer, D. B., and Fox, W.

Subjects
Physics - Plasma Physics
Abstract

Proton radiography is a central diagnostic technique for measuring electromagnetic (EM) fields in high-energy-density, laser-produced plasmas. In this technique, protons traverse the plasma where they accumulate small EM deflections which lead to variations in the proton fluence pattern on a detector. Path-integrated EM fields can then be extracted from the fluence image through an inversion process. In this work, experiments of laser-driven foils were conducted on the OMEGA laser and magnetic field reconstructions were performed using both "fluence-based" techniques and high-fidelity "mesh-based" methods. We implement nonzero boundary conditions into the inversion and show their importance by comparing against mesh measurements. Good agreement between the methods is found only when nonzero boundary conditions are used. We also introduce an approach to determine the unperturbed proton source profile, which is a required input in fluence reconstruction algorithms. In this approach, a fluence inversion is embedded inside of a mesh region, which provides overconstrained magnetic boundary conditions. A source profile is then iteratively optimized to satisfy the boundary information. This method substantially enhances the accuracy in recovering EM fields. Lastly, we propose a scheme to quantify uncertainty in the final inversion that is introduced through errors in the source retrieval., Comment: 16 pages, 12 figures

Published
2024

2. X-ray imaging and electron temperature evolution in laser-driven magnetic reconnection experiments at the National Ignition Facility

Author

Valenzuela-Villaseca, V., Molina, J. M., Schaeffer, D. B., Malko, S., Griff-McMahon, J., Lezhnin, K., Rosenberg, M. J., Hu, S. X., Kalantar, D., Trosseille, C., Park, H. -S., Remington, B. A., Fiksel, G., Uzdensky, D., Bhattacharjee, A., and Fox, W.

Subjects
Physics - Plasma Physics, Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics
Abstract

We present results from X-ray imaging of high-aspect-ratio magnetic reconnection experiments driven at the National Ignition Facility. Two parallel, self-magnetized, elongated laser-driven plumes are produced by tiling 40 laser beams. A magnetic reconnection layer is formed by the collision of the plumes. A gated X-ray framing pinhole camera with micro-channel plate (MCP) detector produces multiple images through various filters of the formation and evolution of both the plumes and current sheet. As the diagnostic integrates plasma self-emission along the line of sight, 2-dimensional electron temperature maps $\langle T_e \rangle_Y$ are constructed by taking the ratio of intensity of these images obtained with different filters. The plumes have a characteristic temperature $\langle T_e \rangle_Y = 240 \pm 20$ eV at 2 ns after the initial laser irradiation and exhibit a slow cooling up to 4 ns. The reconnection layer forms at 3 ns with a temperature $\langle T_e \rangle_Y = 280 \pm 50$ eV as the result of the collision of the plumes. The error bars of the plumes and current sheet temperatures separate at $4$ ns, showing the heating of the current sheet from colder inflows. Using a semi-analytical model, we find that the observed heating of the current sheet is consistent with being produced by electron-ion drag, rather than the conversion of magnetic to kinetic energy., Comment: Submitted to Physics of Plasmas. 19 pages (total), 14 figures, 2 tables

Published
2024
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3. Laser-driven ion and electron acceleration from near-critical density gas targets: towards high-repetition rate operation in the 1 PW, sub-100 fs laser interaction regime

Author

Ospina-Bohórquez, V., Salgado-López, C., Ehret, M., Malko, S., Salvadori, M., Pisarczyk, T., Chodukowski, T., Rusiniak, Z., Krupka, M., Lendrin, P. GuillonM., Pérez-Callejo, G., Vlachos, C., Hannachi, F., Tarisien, M., Consoli, F., Verona, C., Prestopino, G., Dostal, J., Dudzak, R., Henares, J. L., Apiñaniz, J. I., DeLuis, D., Debayle, A., Caron, J., Ceccotti, T., Hernández-Martín, R., Hernández-Toro, J., Huault, M., Martín-López, A., Méndez, C., Nguyen-Bui, T. -H., Perez-Hernández, J. A., Vaisseau, X., Varela, O., Volpe, L., Gremillet, L., and Santos, J. J.

Subjects
Physics - Plasma Physics, Physics - Applied Physics
Abstract

Ion acceleration from gaseous targets driven by relativistic-intensity lasers was demonstrated as early as the late 90s, yet most of the experiments conducted to date have involved picosecond-duration, Nd:glass lasers operating at low repetition rate. Here, we present measurements on the interaction of ultraintense ($\sim 10^{20}\,\rm W\,cm^{-2}$, 1 PW), ultrashort ($\sim 70\,\rm fs$) Ti:Sa laser pulses with near-critical ($\sim 10^{20}\,\rm cm^{-3}$) helium gas jets, a debris-free targetry compatible with high ($\sim 1\,\rm Hz$) repetition rate operation. We provide evidence of $\alpha$ particles being forward accelerated up to $\sim 2.7\,\rm MeV$ energy with a total flux of $\sim 10^{11}\,\rm sr^{-1}$ as integrated over $>0.1 \,\rm MeV$ energies and detected within a $0.5\,\rm mrad$ solid angle. We also report on on-axis emission of relativistic electrons with an exponentially decaying spectrum characterized by a $\sim 10\,\rm MeV$ slope, i.e., five times larger than the standard ponderomotive scaling. The total charge of these electrons with energy above 2 MeV is estimated to be of $\sim 1 \,\rm nC$, corresponding to $\sim 0.1\,\%$ of the laser drive energy. In addition, we observe the formation of a plasma channel, extending longitudinally across the gas density maximum and expanding radially with time. These results are well captured by large-scale particle-in-cell simulations, which reveal that the detected fast ions most likely originate from reflection off the rapidly expanding channel walls. The latter process is predicted to yield ion energies in the MeV range, which compare well with the measurements. Finally, direct laser acceleration is shown to be the dominant mechanism behind the observed electron energization.

Published
2023

4. Measurements of Extended Magnetic Fields in Laser-Solid Interaction

Author

Griff-McMahon, J., Malko, S., Valenzuela-Villaseca, V., Walsh, C., Fiksel, G., Rosenberg, M. J., Schaeffer, D. B., and Fox, W.

Subjects
Physics - Plasma Physics
Abstract

Magnetic fields generated from a laser-foil interaction are measured with high fidelity using a proton radiography scheme with in situ x-ray fiducials. In contrast to prior findings under similar experimental conditions, this technique reveals the self-generated, Biermann-battery fields extend beyond the edge of the expanding plasma plume to a radius of over 3.5 mm by t=+1.4 ns, a result not captured in state-of-the-art magneto-hydrodynamics simulations. An analysis of two mono-energetic proton populations confirms that proton deflection is dominated by magnetic fields far from the interaction (>2 mm) and electric fields are insignificant. Comparisons to prior work suggest a new physics mechanism for the magnetic field generation and transport in laser-solid interactions., Comment: 9 pages, 8 figures

Published
2023

5. Guided Electromagnetic Discharge Pulses Driven by Short Intense Laser Pulses: Characterisation and Modelling

Author

Ehret, M., Bailly-Grandvaux, M., Korneev, Ph., Apiñaniz, J. I., Brabetz, C., Morace, A., Bradford, P., d'Humières, E., Schaumann, G., Bagnoud, V., Malko, S., Matveevskii, C., Roth, M., Volpe, L., Woolsey, N. C., and Santos, J. J.

Subjects
Physics - Plasma Physics, J.2
Abstract

Strong electromagnetic pulses (EMP) are generated from intense laser interactions with solid-density targets, and can be guided by the target geometry, specifically through conductive connections to the ground. We present an experimental characterization, by time- and spatial-resolved proton deflectometry, of guided electromagnetic discharge pulses along wires including a coil, driven by 0.5 ps, 50 J, 1e19 W/cm2 laser pulses. Proton-deflectometry data allows to time-resolve first the EMP due to the laser-driven target charging and then the return EMP from the ground through the conductive target stalk. Both EMPs have a typical duration of tens of ps and correspond to currents in the kA-range with electric-field amplitudes of multiple GV/m. The sub-mm coil in the target rod creates lensing effects on probing protons, due to both magnetic- and electric-field contributions. This way, protons of 10 MeV-energy range are focused over cm-scale distances. Experimental results are supported by analytical modelling and high-resolution numerical particle-in-cell simulations, unraveling the likely presence of a surface plasma, which parameters define the discharge pulse dispersion in the non-linear propagation regime.

Published
2022
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6. Time-Of-Flight methodologies with large-area diamond detectors for the effectively characterization of tens of MeV protons

Author

Salvadori, M., Andreoli, P. L., Cipriani, M., Cristofari, G., De Angelis, R., Malko, S., Volpe, L., Hernandez, J. A. Perez, Alpinaniz, J. I., Morace, A., Antici, P., Migliorati, M., Di Giorgio, G., and Consoli, F.

Subjects
Physics - Instrumentation and Detectors
Abstract

A novel detector based on a polycrystalline diamond sensor is here employed in an advanced Time-Of-Flight scheme for the characterization of energetic ions accelerated during laser-matter interactions. The optimization of the detector and of the advanced TOF methodology allow to obtain signals characterized by high signal-to-noise ratio and high dynamic range even in the most challenging experimental environments, where the interaction of high-intensity laser pulses with matter leads to effective ion acceleration, but also to the generation of strong Electromagnetic Pulses (EMPs) with intensities up to the MV/m order. These are known to be a serious threat for the fielded diagnostic systems. In this paper we report on the measurement performed with the PW-class laser system Vega 3 at CLPU (30 J energy, 10^21 W/cm2 intensity, 30 fs pulses) irradiating solid targets, where both tens of MeV ions and intense EMP fields were generated. The data were analyzed to retrieve a calibrated proton spectrum and in particular we focus on the analysis of the most energetic portion (E > 5.8 MeV) of the spectrum showing a procedure to deal with the intrinsic lower sensitivity of the detector in the mentioned spectral-range.

Published
2021
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7. Design of proton deflectometry with in situ X-ray fiducial for magnetized HED systems

Author

Malko, S., Johnson, C., Schaeffer, D. B., Fox, W., and Fiksel, G.

Subjects
Physics - Plasma Physics
Abstract

We report a design and implementation of proton radiography with an in situ reference X-ray image of a mesh to precisely measure non-uniform magnetic fields in expanding plasmas at the OMEGA and OMEGA EP laser facilities. The technique has been developed with proton and x-ray sources generated from both directly-driven capsule implosions and short pulse laser-solid interactions. The accuracy of the measurement depends on the contrast of both the proton and x-ray images. We present numerical and analytic studies to optimize the image contrast using a variety of mesh materials and grid spacing. Our results show a clear enhancement of the image contrast by a factor of 4-6 using a high Z mesh with large grid spacing. This would lead to a further factor of two improvement in accuracy of the magnetic field measurement.

Published
2021
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8. Proton deflectometry with in situ x-ray reference for absolute measurement of electromagnetic fields in high-energy-density plasmas

Author

Johnson, C. L., Malko, S., Fox, W., Schaeffer, D. B., Fiksel, G., Adrian, P. J., Sutcliffe, G., and Birkel, A.

Subjects
Physics - Plasma Physics
Abstract

We report a technique of proton deflectometry which uses a grid and an in situ reference x-ray grid image for precise measurements of magnetic fields in high-energy density plasmas. A D$^3$He fusion implosion provides a bright point-source of both protons and x-rays, which is split into beamlets by a mesh grid. The protons undergo deflections as they propagate through the plasma region of interest, whereas the x-rays travel along straight lines. The x-ray image therefore provides a zero-deflection reference image. The line-integrated magnetic fields are inferred from the shifts of beamlets between the deflected (proton) and reference (x-ray) images. We developed a system for analysis of this data, including automatic algorithms to find beamlet locations and calculate their deflections from the reference image. The technique is verified in an experiment performed at OMEGA to measure a non-uniform magnetic field in vacuum, then applied to observe the interaction of an expanding plasma plume with the magnetic field., Comment: Submitted to Rev. Sci. Instrum. 9 pages, 9 figures

Published
2021
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9. A quasi-monoenergetic short time duration compact proton source for probing high energy density states of matter

Author

Apiñaniz, J. I., Malko, S., Fedosejevs, R., Cayzac, W., Vaisseau, X., de Luis, D., Gatti, G., McGuffey, C., Bailly-Grandvaux, M., Bhutwala, K., Ospina-Bohorquez, V., Balboa, J., Santos, J. J., Batani, D., Beg, F., Roso, L., Perez-Hernandez, J. A., and Volpe, L.

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

We report on the development of a highly directional, narrow energy band, short time duration proton beam operating at high repetition rate, suitable for measurements of stopping power in high energy density plasmas as well as other applications. The protons are generated with an ultrashort-pulse laser interacting with a solid target and converted to a pencil-like narrow-band beam using a compact magnet-based energy selector. We experimentally demonstrate the production of a proton beam with an energy of 500 keV and energy spread well below 10%, and a pulse duration of 260 ps. The energy loss of this beam is measured in a 2 ${\mu}$m thick solid Mylar target and found to be in within 1% of theoretical predictions. The short time duration of the proton pulse makes it particularly well suited for applications involving the probing of highly transient plasma states produced in laser-matter interaction experiments, in particular measurements of proton stopping power.

Published
2020

10. Integrated quantitative PIXE analysis and EDX spectroscopy using a laser-driven particle source

Author

Mirani, F., Maffini, A., Casamichiela, F., Pazzaglia, A., Formenti, A., Dellasega, D., Russo, V., Vavassori, D., Bortot, D., Huault, M., Zeraouli, G., Ospina, V., Malko, S., Apiñaniz, J. I., Perez-Hernández, J. A., De Luis, D., Gatti, G., Volpe, L., Pola, A., and Passoni, M.

Subjects
Physics - Plasma Physics, Physics - Applied Physics, Physics - Instrumentation and Detectors
Abstract

Among the existing elemental characterization techniques, Particle Induced X-ray Emission (PIXE) and Energy Dispersive X-ray (EDX) spectroscopy are two of the most widely used in different scientific and technological fields. Here we present the first quantitative laser-driven PIXE and laser-driven EDX experimental investigation performed at the Centro de L\'aseres Pulsados in Salamanca. Thanks to their potential for compactness and portability, laser-driven particle sources are very appealing for materials science applications, especially for materials analysis techniques. We demonstrate the possibility to exploit the X-ray signal produced by the co-irradiation with both electrons and protons to identify the elements in the sample. We show that, using the proton beam only, we can successfully obtain quantitative information about the sample structure through laser-driven PIXE analysis. These results pave the way towards the development of a compact and multi-functional apparatus for the elemental analysis of materials based on a laser-driven particle source., Comment: This project has received funding from the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation programme (ENSURE grant agreement No. 647554). Submitted to Science Advances on 20th May 20

Published
2020

11. A quasi-monoenergetic short time duration compact proton source for probing high energy density states of matter

Author

Apiñaniz, JI, Malko, S, Fedosejevs, R, Cayzac, W, Vaisseau, X, de Luis, D, Gatti, G, McGuffey, C, Bailly-Grandvaux, M, Bhutwala, K, Ospina-Bohorquez, V, Balboa, J, Santos, JJ, Batani, D, Beg, F, Roso, L, Perez-Hernandez, JA, and Volpe, L

Subjects
Nuclear and Plasma Physics, Synchrotrons and Accelerators, Physical Sciences, Affordable and Clean Energy
Abstract

We report on the development of a highly directional, narrow energy band, short time duration proton beam operating at high repetition rate. The protons are generated with an ultrashort-pulse laser interacting with a solid target and converted to a pencil-like narrow-band beam using a compact magnet-based energy selector. We experimentally demonstrate the production of a proton beam with an energy of 500 keV and energy spread well below 10[Formula: see text], and a pulse duration of 260 ps. The energy loss of this beam is measured in a 2 [Formula: see text]m thick solid Mylar target and found to be in good agreement with the theoretical predictions. The short time duration of the proton pulse makes it particularly well suited for applications involving the probing of highly transient plasma states produced in laser-matter interaction experiments. This proton source is particularly relevant for measurements of the proton stopping power in high energy density plasmas and warm dense matter.

Published
2021

12. Enhanced relativistic-electron beam collimation using two consecutive laser pulses

Author

Malko, S., Vaisseau, X., Perez, F., Batani, D., Curcio, A., Ehret, M., Honrubia, J. J., Jakubowska, K., Morace, A., Santos, J. J., and Volpe, L.

Subjects
Physics - Plasma Physics
Abstract

The double laser pulse approach to relativistic electron beam (REB) collimation has been investigated at the LULI-ELFIE facility. In this scheme, the magnetic field generated by the first laser-driven REB is used to guide a second delayed REB. We show how electron beam collimation can be controlled by properly adjusting laser parameters. By changing the ratio of focus size and the delay time between the two pulses we found a maximum of electron beam collimation clearly dependent on the focal spot size ratio of the two laser pulses and related to the magnetic field dynamics. Cu-K alpha and CTR imaging diagnostics were implemented to evaluate the collimation effects on the respectively low energy (< 100 keV) and high energy (> MeV) components of the REB.

Published
2019
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13. Laser-driven ion and electron acceleration from near-critical density gas targets: Towards high-repetition rate operation in the 1 PW, sub-100 fs laser interaction regime

Author

Ospina-Bohórquez, V., primary, Salgado-López, C., additional, Ehret, M., additional, Malko, S., additional, Salvadori, M., additional, Pisarczyk, T., additional, Chodukowski, T., additional, Rusiniak, Z., additional, Krupka, M., additional, Guillon, P., additional, Lendrin, M., additional, Pérez-Callejo, G., additional, Vlachos, C., additional, Hannachi, F., additional, Tarisien, M., additional, Consoli, F., additional, Verona, C., additional, Prestopino, G., additional, Dostal, J., additional, Dudzak, R., additional, Henares, J. L., additional, Apiñaniz, J. I., additional, De Luis, D., additional, Debayle, A., additional, Caron, J., additional, Ceccotti, T., additional, Hernández-Martín, R., additional, Hernández-Toro, J., additional, Huault, M., additional, Martín-López, A., additional, Méndez, C., additional, Nguyen-Bui, T.-H., additional, Perez-Hernández, J. A., additional, Vaisseau, X., additional, Varela, O., additional, Volpe, L., additional, Gremillet, L., additional, and Santos, J. J., additional

Published
2024
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14. Generation of high energy laser-driven electron and proton sources with the 200 TW system VEGA 2 at the Centro de Laseres Pulsados

Author

Volpe, L., Fedosejevs, R., Gatti, G., Pérez-Hernández, J. A., Méndez, C., Apiñaniz, J., Vaisseau, X., Salgado, C., Huault, M., Malko, S., Zeraouli, G., Ospina, V., Longman, A., De Luis, D., Li, K., Varela, O., García, E., Hernández, I., Pisonero, J. D., Ajates, J. García, Alvarez, J. M., García, C., Rico, M., Arana, D., Hernández-Toro, J., and Roso, L.

Subjects
Physics - Plasma Physics, Physics - Applied Physics
Abstract

The Centro de Laseres Pulsados in Salamanca Spain has recently started operation phase and the first User access period on the 6 J 30 fs 200 TW system (VEGA 2) already started at the beginning of 2018. In this paper we report on two commissioning experiments recently performed on the VEGA 2 system in preparation for the user campaign. VEGA 2 system has been tested in different configurations depending on the focusing optics and targets used. One configuration (long focal length f=130 cm) is for under-dense laser-matter interaction where VEGA 2 is focused onto a low density gas-jet generating electron beams (via laser wake field acceleration mechanism) with maximum energy up to 500 MeV and an X-ray betatron source with a 10 keV critical energy. A second configuration (short focal length f=40 cm) is for over-dense laser-matter interaction where VEGA 2 is focused onto an 5 microns thick Al target generating a proton beam with a maximum energy of 10 MeV and average energy of 7-8 MeV and temperature of 2.5 MeV. In this paper we present preliminary experimental results.

Published
2018

15. Proton stopping measurements at low velocity in warm dense carbon

Author

Malko, S., Cayzac, W., Ospina-Bohórquez, V., Bhutwala, K., Bailly-Grandvaux, M., McGuffey, C., Fedosejevs, R., Vaisseau, X., Tauschwitz, An., Apiñaniz, J. I., De Luis Blanco, D., Gatti, G., Huault, M., Hernandez, J. A. Perez, Hu, S. X., White, A. J., Collins, L. A., Nichols, K., Neumayer, P., Faussurier, G., Vorberger, J., Prestopino, G., Verona, C., Santos, J. J., Batani, D., Beg, F. N., Roso, L., and Volpe, L.

Published
2022
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16. Laser-driven quasi-static B-fields for magnetized high-energy-density experiments.

Author

Vlachos, C., Ospina-Bohórquez, V., Bradford, P. W., Pérez-Callejo, G., Ehret, M., Guillon, P., Lendrin, M., Vaisseau, X., Albertazzi, B., Soussan, E., Koenig, M., Malko, S., Kaur, C., Gjevre, M., Fedosejevs, R., Bailly-Grandvaux, M., Walsh, C. A., Florido, R., Suzuki-Vidal, F., and McGuffey, C.

Subjects
MAGNETIC field measurements, LASER pulses, SEMICONDUCTOR lasers, MAGNETIC fields, SURFACE charges
Abstract

We present measurements of magnetic fields generated in laser-driven coil targets irradiated by laser pulses of nanosecond duration, 1.053 μm wavelength, 500 J energy, and ∼ 10 15 W / cm 2 intensity, at the LULI2000 facility. Using two perpendicular probing axes, proton deflectometry is used to characterize the coil current and static charge at different times. Results reveal various deflection features that can be unambiguously linked to a looping quasi-steady current of well-understood polarity or to a static charging of the coil surface. Measured currents are broadly consistent with predictions from a laser-driven diode-current source and lumped circuit model, supporting the quasi-steady assessment of the discharges. Peak magnetic fields of ∼ 50 T at the center of 500-μm-diameter coils, obtained at the moderate laser intensity, open up the use of such laser-driven coil targets at facilities worldwide to study numerous phenomena in magnetized high-energy-density plasmas, and its potential applications. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Laser-Driven Quasi-Static Magnetic Fields for Magnetized High Energy-Density Experiments

Author

Vlachos, C., primary, Ospina-Bohorquez, V., additional, Bradford, P., additional, Pérez-Callejo, G., additional, Ehret, M., additional, Guillon, P., additional, Lendrin, M., additional, Vaisseau, X., additional, Albertazzi, B., additional, Soussan, E., additional, Koenig, M., additional, Malko, S., additional, Fedosejevs, R., additional, Kaur, C., additional, Bailly-Grandvaux, M., additional, Walsh, C. A., additional, Florido, R., additional, Suzuki-Vidal, F., additional, McGuffey, C., additional, Beg, F. N., additional, Saret, J., additional, Chodukowski, T., additional, Pisarczyk, T., additional, Rusiniak, Z., additional, Dostal, J., additional, Dudzak, R., additional, Calisti, A., additional, Ferri, S., additional, Volpe, L., additional, Gremillet, L., additional, and Santos, J.J., additional

Published
2023
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18. Guided electromagnetic discharge pulses driven by short intense laser pulses: Characterization and modeling

Author

Ehret, M., primary, Bailly-Grandvaux, M., additional, Korneev, Ph., additional, Apiñaniz, J. I., additional, Brabetz, C., additional, Morace, A., additional, Bradford, P., additional, d'Humières, E., additional, Schaumann, G., additional, Bagnoud, V., additional, Malko, S., additional, Matveevskii, K., additional, Roth, M., additional, Volpe, L., additional, Woolsey, N. C., additional, and Santos, J. J., additional

Published
2023
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19. Low Velocity Proton Stopping Power Measurements in Warm Dense Carbon

Author

Malko, S., primary, Cayzac, W., additional, Ospina-Bohorquez, V., additional, Bhutwala, K., additional, Bailly-Grandvaux, M., additional, McGuffey, C., additional, Fedosejevs, R., additional, Vaisseau, X., additional, Tauschwitz, A., additional, Apinaniz, J. I., additional, De Luis, D., additional, Gatti, G., additional, Huault, M., additional, Perez-Hernandez, J. A., additional, Hu, S., additional, White, A., additional, Collins, L., additional, Nichols, K., additional, Neumayer, P., additional, Faussurier, G., additional, Vorberger, J., additional, Fox, W., additional, Kraus, B., additional, Schaeffer, D., additional, Prestopino, G., additional, Verona, C., additional, Santos, J. J., additional, Batani, D., additional, and Beg, F. N., additional

Published
2022
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20. Time-of-flight methodologies with large-area diamond detectors for the effectively characterization of tens MeV protons

Author

Salvadori, M., primary, Andreoli, P.L., additional, Cipriani, M., additional, Cristofari, G., additional, De Angelis, R., additional, Malko, S., additional, Volpe, L., additional, Perez Hernandez, J.A., additional, Apiñaniz, J.I., additional, Morace, A., additional, Antici, P., additional, Migliorati, M., additional, Di Giorgio, G., additional, and Consoli, F., additional

Published
2022
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22. Integrated quantitative PIXE analysis and EDX spectroscopy using a laser-driven particle source

Author

Mirani, F., primary, Maffini, A., additional, Casamichiela, F., additional, Pazzaglia, A., additional, Formenti, A., additional, Dellasega, D., additional, Russo, V., additional, Vavassori, D., additional, Bortot, D., additional, Huault, M., additional, Zeraouli, G., additional, Ospina, V., additional, Malko, S., additional, Apiñaniz, J. I., additional, Pérez-Hernández, J. A., additional, De Luis, D., additional, Gatti, G., additional, Volpe, L., additional, Pola, A., additional, and Passoni, M., additional

Published
2021
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25. Generation of high energy laser-driven electron and proton sources with the 200 TW system VEGA 2 at the Centro de Laseres Pulsados

Author

Volpe, L., primary, Fedosejevs, R., additional, Gatti, G., additional, Pérez-Hernández, J. A., additional, Méndez, C., additional, Apiñaniz, J., additional, Vaisseau, X., additional, Salgado, C., additional, Huault, M., additional, Malko, S., additional, Zeraouli, G., additional, Ospina, V., additional, Longman, A., additional, De Luis, D., additional, Li, K., additional, Varela, O., additional, García, E., additional, Hernández, I., additional, Pisonero, J. D., additional, García Ajates, J., additional, Alvarez, J. M., additional, García, C., additional, Rico, M., additional, Arana, D., additional, Hernández-Toro, J., additional, and Roso, L., additional

Published
2019
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26. Time evolution of stimulated Raman scattering and two-plasmon decay at laser intensities relevant for shock ignition in a hot plasma

Author

Cristoforetti, G., primary, Antonelli, L., additional, Mancelli, D., additional, Atzeni, S., additional, Baffigi, F., additional, Barbato, F., additional, Batani, D., additional, Boutoux, G., additional, D’Amato, F., additional, Dostal, J., additional, Dudzak, R., additional, Filippov, E., additional, Gu, Y. J., additional, Juha, L., additional, Klimo, O., additional, Krus, M., additional, Malko, S., additional, Martynenko, A. S., additional, Nicolai, Ph., additional, Ospina, V., additional, Pikuz, S., additional, Renner, O., additional, Santos, J., additional, Tikhonchuk, V. T., additional, Trela, J., additional, Viciani, S., additional, Volpe, L., additional, Weber, S., additional, and Gizzi, L. A., additional

Published
2019
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27. Commissioning experiments of VEGA-2 at Centro de Láseres Pulsados (CLPU)

Author

Huault, M., primary, Zeraouli, G., additional, Ajates, J. G., additional, Apiñaniz, J., additional, García, E., additional, Hernández, I., additional, Malko, S., additional, Méndez, C., additional, Perez, J. A., additional, Pisonero, J.D., additional, Salgado, C., additional, Vaisseau, X., additional, Varela, O., additional, Gatti, G., additional, Volpe, L., additional, Roso, L., additional, Fedosejevs, R., additional, Longman, A., additional, Shepherd, R., additional, and Hill, W. T., additional

Published
2017
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28. A study of aromatic nitro compounds for the selection of candidates for carcinogen bioassay

Author

Helmes, C. T., Fung, V. A., Lewin, B., McCaleb, K. E., Malko, S., and Pawlovich, A. M.

Abstract

The class of aromatic nitro compounds was studied in order to nominate chemicals to the National Cancer Institute as candidates for carcinogen bioassay. After application of several qualifying criteria relating to previous, current, or planned carcinogenicity tests and to commercial significance, the preliminary candidate list of 441 chemicals was reduced to a list of 210 chemicals. Based upon consideration of both the suspicion of possible carcinogenic activity and evidence indicating potential exposure, the following 14 chemicals were nominated: 4-chloro-2-nitroaniline; 2,4-dinitroaniline; 4-nitroaniline; benefin; 2-bromo-4,6-dinitro-aniline; 2-nitroanisole; nitrobenzene; 4,4'-dinitro-2,2'-stilbene-disulfonic acid; l,8-dihydroxy-4,5-dinitroanthraquinone; C.I. Pigment Red 3; C.I. Pigment Orange 5; C.I. Pigment Red 23; C.I. Pigment Yellow 74; and 2-amino-6-nitrobenzothiazole.

Published
1982
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29. Fast computation of complex error function of the real argument

Author

Malko, S. V., Pavlov, S. S., and Krasymyr Tretiak

Subjects
Фундаментальная физика плазмы
Abstract

A new efficient technique for evaluation of complex error function of the real argument on the base of the Euler-Maclaurin formula and a non-singular formula for the principal value of the Cauchy integral is given. . It is demonstrated that for the real values of argument, which are most “expensive” in the computational time, the new algorithm is almost two times faster than algorithm 680 with the same accuracy. The code was successfully implemented to ray tracing code that is used for application for investigation of ICR plasma heating in JET-type tokamaks. Предлагается новый эффективный метод вычисления комплексной функции ошибок реального аргумента на основе несингулярной интегральной формы Коши и формулы Эйлера-Маклорена. Показано, что для действительных значений аргумента, которые являются наиболее "дорогими" по времени вычислений, новый алгоритм примерно в два раза быстрее, чем алгоритм 680 с той же точностью. Алгоритм был успешно использован в коде лучевых траекторий, который применялся для исследования ИЦР-нагрева плазмы в токамаке типа JET. Пропонується новий ефективний метод обчислення комплексної функції помилок реального аргументу на основі несінгулярної інтегральної форми Коші та формули Ейлера-Маклорена. Показано, що для дійсних значень аргументу, які є найбільш "дорогими" за часом обчислень, новий алгоритм приблизно в два рази швидший, ніж алгоритм 680 з тією ж точністю. Алгоритм був успішно використаний в коді променевих траєкторій, який застосовувався для дослідження ІЦР-нагріву плазми в токамаці типу JET.

30. Investigation of spontaneous magnetic fields, electron and ion emission in laser-produced plasma experiments at PALS

Author

Pisarczyk, T., Gus Kov, S. Yu, Batani, D., Dudzak, R., Zaras-Szydlowska, A., Chodukowski, T., Rusiniak, Z., Jan Dostal, Renner, O., Demchenko, N. N., Singh, S., Korneev, Ph, Burian, T., Makaruk, D., Rosinski, M., Krupka, M., Pfeifer, M., Cikhardt, J., Krasa, J., Cristoforetti, G., Antonelli, L., Kalal, M., Borodziuk, S., Krus, M., Juha, L., Kochetkov, J., Hrebicek, J., Golasowski, J., Baffigi, F., Filippov, E. D., Gizzi, L. A., Volpe, L., Trela, J., Malko, S., Mancelli, D., Martynenko, A. S., Turianska, O., Ospina, V., Tentori, A., and Skala, J.

32. Soft X-ray measurements with a gas detector coupled to microchips in laser-plasma experiments at VEGA-2

Author

F. Murtas, Dimitri Batani, Luca Volpe, G. Zerauili, A. Romano, O. Turianska, J. A. Perez-Hernandez, D. Pacella, S. Malko, D. Raffestin, Francesco Cordella, G. Claps, Centre d'Etudes Lasers Intenses et Applications (CELIA), Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Bordeaux (UB), Claps, G., Cordella, F., Pacella, D., Romano, A., Murtas, F., Batani, D., Turianska, O., Raffestin, D., Volpe, L., Zerauili, G., Perez-Hernandez, J. A., Malko, S., and Université de Bordeaux (UB)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Centre National de la Recherche Scientifique (CNRS)

Subjects
MICROPIC, Materials science, Physics::Instrumentation and Detectors, CMOS readout of gaseous detectors, Micropattern gaseous detectors (MSGC, GEM, THGEM, RETHGEM, MHSP, MICROPIC, MICROMEGAS, InGrid, etc), Nuclear instruments and methods for hot plasma diagnostics, X-ray detectors, X-ray detector, Nuclear instruments and methods for hot plasma diagnostic, CMOS readout of gaseous detector, 7. Clean energy, 01 natural sciences, law.invention, Micropattern gaseous detectors (MSGC, Optics, law, 0103 physical sciences, Gas detector, [PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det], 010306 general physics, Instrumentation, Mathematical Physics, etc), Soft x ray, GEM, 010308 nuclear & particles physics, business.industry, Vega, Plasma, Laser, InGrid, RETHGEM, MICROMEGAS, MHSP, business, THGEM
Abstract

International audience; This work presents an innovative usage of the GEMpix detector for soft X-rays (SXR) measurements aimed to make an estimate of the electron temperature of a Laser Produced Plasma (LPP). The GEMpix is a proportional gas detector based on three Gas Electron Multipliers (GEMs) with a Front-End Electronics (FEE) based on four Timepix chips. This FEE provides the Time over Threshold (ToT) acquisition mode pixel by pixel and then a digital measure of the released charge in the gas mixture. In addition, the charge can be amplified through the GEM foils with 4 orders of magnitude spanning gain offering, in this way, a big dynamic range and adjustable sensitivity. Chip design provides a threshold for each channel. All the thresholds are set in order to cut electronic noise and detect X-rays. In this configuration, a cut on the low amplitude signals is set, but the gain has been tuned in order to observe the main signal due to the soft X-rays reaching the detector. This detector works in an energy range between 2 to 15 keV . It offers good imaging properties, high efficiency and absolute calibration. It offers a good immunity to Electromagnetic Pulse (EMP), as checked at VEGA-2 laser facility (hundreds of TW in about 30 fs). In these experiments, where the formation of warm dense matter produced by blast waves has been studied, a measure of the plasma temperature was required. This measurement was realized applying some filters on the active area of the detector, in correspondence of three chips. With this configuration a study of the GEMpix response due to the photons coming from the coronal plasma produced by the laser on the target has been done for each single shot. GEMpix revealed innovative and attractive features, compared to the state of the art where passive films or detectors based on indirect conversion are used, for SXR imaging and spectral analysis to infer the electron temperature.

Published
2019

33. In-situ relative calibration of Bragg crystals with Monte Carlo line ratio analysis.

Author

Kraus BF, Kriz E, McPoyle SP, Atay K, Malko S, Hill KW, Gao L, Efthimion PC, Hollinger RC, Wang S, King J, Zahedpour Anaraki S, and Rocca JJ

Abstract

X-ray line emission spectra can thoroughly characterize hot plasmas, especially when line shapes and ratios convey distinct aspects of plasma conditions. However, the high spectral resolution required for observing line shapes is often at odds with the large bandwidth required to observe many line ratios across a wide spectral range. One strategy to obtain high spectral resolution over a wide bandwidth is to use multiple crystals with calibrated reflectivity so that line intensities across different crystals can be compared. Here, we explore the use of a low-resolution, wide-bandwidth mica survey spectrometer to infer relative reflectivity of two high-resolution, narrow-bandwidth quartz crystals. A Monte Carlo error analysis determines comparable x-ray line ratios measured from both spectrometers, resulting in an in situ calibration factor and associated uncertainty for the relative reflectivity of the high-resolution crystals., (© 2024 Author(s). Published under an exclusive license by AIP Publishing.)

Published
2024
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34. A Platform for Ultra-Fast Proton Probing of Matter in Extreme Conditions.

Author

Volpe L, Cebriano Ramírez T, Sánchez CS, Perez A, Curcio A, De Luis D, Gatti G, Kebladj B, Khetari S, Malko S, Perez-Hernandez JA, and Frias MDR

Abstract

Recent developments in ultrashort and intense laser systems have enabled the generation of short and brilliant proton sources, which are valuable for studying plasmas under extreme conditions in high-energy-density physics. However, developing sensors for the energy selection, focusing, transport, and detection of these sources remains challenging. This work presents a novel and simple design for an isochronous magnetic selector capable of angular and energy selection of proton sources, significantly reducing temporal spread compared to the current state of the art. The isochronous selector separates the beam based on ion energy, making it a potential component in new energy spectrum sensors for ions. Analytical estimations and Monte Carlo simulations validate the proposed configuration. Due to its low temporal spread, this selector is also useful for studying extreme states of matter, such as proton stopping power in warm dense matter, where short plasma stagnation time (<100 ps) is a critical factor. The proposed selector can also be employed at higher proton energies, achieving final time spreads of a few picoseconds. This has important implications for sensing technologies in the study of coherent energy deposition in biology and medical physics.

Published
2024
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35. Optical versus radiographic imaging and tomography: introduction to the ROADS feature issue.

Author

Wang Z, Liu W, Malko S, and Tremsin A

Abstract

Optical imaging is an ancient branch of imaging dating back to thousands of years. Radiographic imaging and tomography (RadIT), including the first use of X-rays by Wilhelm Röntgen, and then, γ -rays, energetic charged particles, neutrons, etc. are about 130 years young. The synergies between optical and radiographic imaging can be cast in the framework of these building blocks: Physics, Sources, Detectors, Methods, and Data Science, as described in Appl. Opt.61, RDS1 (2022)APOPAI0003-693510.1364/AO.455628. Optical imaging has expanded to include three-dimensional (3D) tomography (including holography), due in to part the invention of optical (including infrared) lasers. RadIT are intrinsically 3D because of the penetrating power of ionizing radiation. Both optical imaging and tomography (OIT) and RadIT are evolving into even higher dimensional regimes, such as time-resolved tomography (4D) and temporarily and spectroscopically resolved tomography (4 D + ). Further advances in OIT and RadIT will continue to be driven by desires for higher information yield, higher resolutions, and higher probability models with reduced uncertainties. Synergies in quantum physics, laser-driven sources, low-cost detectors, data-driven methods, automated processing of data, and artificially intelligent data acquisition protocols will be beneficial to both branches of imaging in many applications. These topics, along with an overview of the Radiography, Applied Optics, and Data Science virtual feature issue, are discussed here.

Published
2024
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36. Design of proton deflectometry with in situ x-ray fiducial for magnetized high-energy-density systems.

Author

Malko S, Johnson C, Schaeffer DB, Fox W, and Fiksel G

Abstract

We report a design and implementation of proton deflectometry with an in situ reference x-ray image of a mesh to precisely measure non-uniform magnetic fields in expanding plasmas at the OMEGA and OMEGA EP laser facilities. The technique has been developed with proton and x-ray sources generated from both directly driven capsule implosions and short pulse laser-solid interactions. The accuracy of the measurement depends on the contrast of both the proton and x-ray images. We present numerical and analytic studies to optimize the image contrast using a variety of mesh materials and grid spacings. Our results show clear enhancement of the image contrast by factors of four to six using a high Z mesh with large grid spacing. This leads to further improvement in the accuracy of the magnetic field measurement using this technique in comparison with its first demonstration at the OMEGA laser facility [Rev. Sci. Instrum.93, 023502 (2022)RSINAK0034-674810.1063/5.0064263].

Published
2022
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