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1. Global characterization of a laser-generated neutron source

Author

Higginson, DP, Lelièvre, R, Vassura, L, Gugiu, MM, Borghesi, M, Bernstein, LA, Bleuel, DL, Goldblum, BL, Green, A, Hannachi, F, Kar, S, Kisyov, S, Quentin, L, Schroer, M, Tarisien, M, Willi, O, Antici, P, Negoita, F, Allaoua, A, and Fuchs, J

Subjects
Nuclear and Plasma Physics, Synchrotrons and Accelerators, Physical Sciences, intense particle beams, plasma diagnostics, plasma applications, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Quantum Physics, Fluids & Plasmas, Nuclear and plasma physics
Abstract

Laser-driven neutron sources are routinely produced by the interaction of laser-accelerated protons with a converter. They present complementary characteristics to those of conventional accelerator-based neutron sources (e.g. short pulse durations, enabling novel applications like radiography). We present here results from an experiment aimed at performing a global characterization of the neutrons produced using the Titan laser at the Jupiter Laser Facility (Livermore, USA), where protons were accelerated from 23 m thick plastic targets and directed onto a LiF converter to produce neutrons. For this purpose, several diagnostics were used to measure these neutron emissions, such as CR-39, activation foils, time-of-flight detectors and direct measurement of residual activity in the LiF converters. The use of these different, independently operating diagnostics enables comparison of the various measurements performed to provide a robust characterization. These measurements led to a neutron yield of neutrons per shot with a modest angular dependence, close to that simulated.

Published
2024

2. Global Characterization of a Laser-Generated Neutron Source

Author

Higginson, D. P., Lelièvre, R., Vassura, L., Gugiu, M. M., Borghesi, M., Bernstein, L. A., Bleuel, D. L., Goldblum, B. L., Green, A., Hannachi, F., Kar, S., Kisyov, S., Quentin, L., Schroer, M., Tarisien, M., Willi, O., Antici, P., Negoita, F., Allaoua, A., and Fuchs, J.

Subjects
Physics - Accelerator Physics, Nuclear Experiment, Physics - Plasma Physics
Abstract

Laser-driven neutron sources are routinely produced by the interaction of laser-accelerated protons with a converter. They present complementary characteristics to those of conventional accelerator-based neutron sources (e.g. short pulse durations, enabling novel applications like radiography). We present here results from an experiment aimed at performing a global characterization of the neutrons produced using the Titan laser at the Jupiter Laser Facility (Livermore, USA), where protons were accelerated from 23 $\mu m$ thick plastic targets and directed onto a LiF converter to produce neutrons. For this purpose, several diagnostics were used to measure these neutron emissions, such as CR-39, activation foils, Time-of-Flight detectors and direct measurement of $^{7}$Be residual activity in the LiF converters. The use of these different, independently operating diagnostics enables comparison of the various measurements performed to provide a robust characterization. These measurements led to a neutron yield of $2.10^{9}$ neutrons per shot with a modest angular dependence, close to that simulated.

Published
2023

3. Calibration of BAS-TR image plate response to GeV gold ions

Author

Doria, D., Martin, P., Ahmed, H., Alejo, A., Cerchez, M., Ferguson, S., Fernandez-Tobias, J., Green, J. S., Gwynne, D., Hanton, F., Jarrett, J., Maclellan, D. A., McIlvenny, A., McKenna, P., Ruiz, J. A., Swantusch, M., Willi, O., Zhai, S., Borghesi, M., and Kar, S.

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

The response of the BAS-TR image plate (IP) was absolutely calibrated using CR-39 track detector for high linear energy transfer (LET) Au ions up to $\sim$1.6 GeV (8.2 MeV/nucleon), accelerated by high-power lasers. The calibration was carried out by employing a high-resolution Thomson parabola spectrometer, which allowed resolving Au ions with closely spaced ionization states up to 58$^+$. A response function was obtained by fitting the photo-stimulated luminescence (PSL) per Au ion for different ion energies, which is broadly in agreement with that expected from ion stopping in the active layer of the IP. This calibration would allow quantifying the ion energy spectra for high energy Au ions, which is important for further investigation of the laser-based acceleration of heavy ion beams., Comment: 6 pages; 4 figures. Submitted to journal for review

Published
2022
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4. Spatial profile of accelerated electrons from ponderomotive scattering in hydrogen cluster targets

Author

Aurand, B., Reichwein, L., Schwind, K. M., Aktan, E., Cerchez, M., Kaymak, V., Lessmann, L., Prasad, R., Thomas, J., Toncian, T., Khoukaz, A., Pukhov, A., and Willi, O.

Subjects
Physics - Plasma Physics
Abstract

We study the laser-driven acceleration of electrons from overdense hydrogen clusters to energies of up to 13 MeV in laser forward direction and several hundreds of keV in an outer ring-like structure. The use of cryogenic hydrogen allows for high repetition-rate operation and examination of the influence of source parameters like temperature and gas flow. The outer ring-like structure of accelerated electrons, originating from the interaction, that is robust against the change of laser and target parameters can be observed for low electron densities of ca. 3$\times$10$^{16}$ cm$^{-3}$. For higher electron densities, an additional central spot of electrons in the laser forward direction can be observed. Utilizing 3D-PIC simulations, it is revealed that both electron populations mainly stem from ponderomotive scattering.

Published
2021
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5. Laboratory evidence for asymmetric accretion structure upon slanted matter impact in young stars

Author

Burdonov, K., Revet, G., Bonito, R., Argiroffi, C., Beard, J., Bolanos, S., Cerchez, M., Chen, S. N., Ciardi, A., Espinosa, G., Fillipov, E., Pikuz, S., Rodriguez, R., Smid, M., Starodubtsev, M., Willi, O., Orlando, S., and Fuchs, J.

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

Investigating in the laboratory the process of matter accretion onto forming stars through scaled experiments is important in order to better understand star and planetary systems formation and evolution. Such experiments can indeed complement observations by providing access to the processes with spatial and temporal resolution. A first step has been made in [G. Revet et al., Science Advances 3, e1700982 (2017), arXiv:1708.02528]. in allowing such investigations. It revealed the existence of a two components stream: a hot shell surrounding a cooler inner stream. The shell was formed by matter laterally ejected upon impact and refocused by the local magnetic field. That laboratory investigation was limited tonormal incidence impacts. However, in young stellar objects, complex structure of magnetic fields causes variability of the incidentangles of the accretion columns. This led us to undertake an investigation, using laboratory plasmas, of the consequence of having a slanted accretion impacting a young star. Here we use high power laser interactions and strong magnetic field generation in the laboratory, complemented by numerical simulations, to study the asymmetry induced upon accretion structures when columns of matter impact the surface of young stars with an oblique angle. Compared to the scenario where matter accretes normal to the star surface, we observe strongly asymmetric plasma structure, strong lateral ejecta of matter, poor confinement of the accreted material and reduced heating compared to the normal incidence case. Thus, slanted accretion is a configuration that seems to be capable of inducing perturbations of the chromosphere and hence possibly influence the level of activity of the corona.

Published
2020
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6. Laboratory disruption of scaled astrophysical outflows by a misaligned magnetic field

Author

Revet, G., Khiar, B., Filippov, E., Argiroffi, C., Béard, J., Bonito, R., Cerchez, M., Chen, S. N., Gangolf, T., Higginson, D. P., Mignone, A., Olmi, B., Ouillé, M., Ryazantsev, S. N., Skobelev, I. Yu., Safronova, M. I., Starodubtsev, M., Vinci, T., Willi, O., Pikuz, S., Orlando, S., Ciardi, A., and Fuchs, J.

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

The shaping of astrophysical outflows into bright, dense and collimated jets due to magnetic pressure is here investigated using laboratory experiments. We notably look at the impact on jet collimation of a misalignment between the outflow, as it stems from the source, and the magnetic field. For small misalignments, a magnetic nozzle forms and redirects the outflow in a collimated jet. For growing misalignments, this nozzle becomes increasingly asymmetric, disrupting jet formation. Our results thus suggest outflow/magnetic field misalignment to be a plausible key process regulating jet collimation in a variety of objects from our Sun's outflows to extragalatic jets. Furthermore, they provide a possible interpretation for the observed structuring of astrophysical jets. Jet modulation could be interpreted as the signature of changes over time in the outflow/ambient field angle, and the change in the direction of the jet could be the signature of changes in the direction of the ambient field.

Published
2020
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7. Laser-produced magnetic-Rayleigh-Taylor unstable plasma slabs in a 20 T magnetic field

Author

Khiar, B., Revet, G., Ciardi, A., Burdonov, K., Filippov, E., Béard, J., Cerchez, M., Chen, S. N., Gangolf, T., Makarov, S. S., Ouillé, M., Safronova, M., Skobelev, I. Yu., Soloviev, A., Starodubtsev, M., Willi, O., Pikuz, S., and Fuchs, J.

Subjects
Physics - Plasma Physics
Abstract

Magnetized laser-produced plasmas are central to many novel laboratory astrophysics and inertial confinement fusion studies, as well as in industrial applications. Here we provide the first complete description of the three-dimensional dynamics of a laser-driven plasma plume expanding in a 20 T transverse magnetic field. The plasma is collimated by the magnetic field into a slender, rapidly elongating slab, whose plasma-vacuum interface is unstable to the growth of the "classical", fluid-like magnetized Rayleigh-Taylor instability., Comment: Accepted for publication in Physical Review Letters

Published
2019
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8. Joule-level high effiency energy transfer to sub-picosecond laser pulses by a plasma-based amplifier

Author

Marquès, J. -R., Lancia, L., Gangolf, T., Blecher, M., Bolaños, S., Fuchs, J., Willi, O., Amiranoff, F., Berger, R. L., Chiaramello, M., Weber, S., and Riconda, C.

Subjects
Physics - Plasma Physics
Abstract

Laser plasma amplification of sub-picosecond pulses above the Joule level is demonstrated, a major milestone for this scheme to become a solution for the next-generation of ultra-high intensity lasers. By exploring over 6 orders of magnitude the influence of the incident seed intensity on Brillouin laser amplification, we reveal the importance of a minimum intensity to ensure an early onset of the self-similar regime, and a large energy transfer with a very high efficiency, up to 20%. Evidence of energy losses of the seed by spontaneous backward Raman is found at high amplification. The first three-dimensional envelope simulations of the sub-picosecond amplification were performed, supplemented by one-dimensional PIC simulations. Comparisons with the experimental results demonstrate the capability of quantitative predictions on the transferred energy. The global behavior of the amplification process, is reproduced, including the evolution of the spatial profile of the amplified seed.

Published
2018
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9. Nm-sized cryogenic hydrogen clusters for a laser-driven proton source

Author

Grieser, S., Aurand, B., Aktan, E., Bonaventura, D., Büscher, M., Cerchez, M., Engin, I., Leßmann, L., Mannweiler, C., Prasad, R., Willi, O., and Khoukaz, A.

Subjects
Physics - Plasma Physics
Abstract

A continuous cryogenic hydrogen cluster-jet target has been developed for laser-plasma interaction studies, in particular as a source for the acceleration of protons. Major advantages of the cluster-jet target are the compatibility with pulsed high repetition lasers and the absence of debris. The cluster-jet target was characterized using the Mie-scattering technique allowing to determine the cluster size and to compare it with an empirical prediction. In addition, an estimation of the cluster beam density was performed. The system was implemented at the high power laser system ARCTURUS and first successful measurements show the acceleration of protons after irradiation by high intensity laser pulses with a repetition rate of five Hertz., Comment: 9 pages, 7 figures

Published
2018
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10. Acceleration of collimated 45 MeV protons by collisionless shocks driven in low-density, large-scale gradient plasmas by a 10^20 W/cm^2, 1 micron wavelength laser

Author

Antici, P., Boella, E., Chen, S. N., Andrews, D. S., Barberio, M., Böker, J., Cardelli, F., Feugeas, J. L., Glesser, M., Nicolaï, P., Romagnani, L., Sciscio, M., Starodubtsev, M., Willi, O., Kieffer, J. C., Tikhonchuk, V., Pépin, H., Silva, L. O., Humières, E. d, and Fuchs, J.

Subjects
Physics - Plasma Physics
Abstract

A new type of proton acceleration stemming from large-scale gradients, low-density targets, irradiated by an intense near-infrared laser is observed. The produced protons are characterized by high-energies (with a broad spectrum), are emitted in a very directional manner, and the process is associated to relaxed laser (no need for high-contrast) and target (no need for ultra-thin or expensive targets) constraints. As such, this process appears quite effective compared to the standard and commonly used Target Normal Sheath Acceleration technique (TNSA), or more exploratory mechanisms like Radiation Pressure Acceleration (RPA). The data are underpinned by 3D numerical simulations which suggest that in these conditions Low Density Collisionless Shock Acceleration (LDCSA) is at play, which combines an initial Collisionless Shock Acceleration (CSA) to a boost procured by a TNSA-like sheath field in the downward density ramp of the target, which leads to an overall broad spectrum. Experiments performed at 10^20 W/cm^2 laser intensity show that LDCSA can accelerate, from ~1% critical density, mm-scale targets, up to 5x10^9 protons/MeV/sr/J with energies up to 45(+/- 5) MeV in a collimated (~6$^\circ$ half-angle) manner.

Published
2017

11. Laboratory unravelling of matter accretion in young stars

Author

Revet, G., Chen, S. N., Bonito, R., Khiar, B., Filippov, E., Argiroffi, C., Higginson, D. P., Orlando, S., Béard, J., Blecher, M., Borghesi, M., Burdonov, K., Khaghani, D., Naughton, K., Pépin, H., Portugall, O., Riquier, R., Rodriguez, R., Ryazantsev, S. N., Skobelev, I. Yu., Soloviev, A., Willi, O., Pikuz, S., Ciardi, A., and Fuchs, J.

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

Accretion dynamics in the forming of young stars is still object of debate because of limitations in observations and modelling. Through scaled laboratory experiments of collimated plasma accretion onto a solid in the presence of a magnetic field, we open first window on this phenomenon by tracking, with spatial and temporal resolution, the dynamics of the system and simultaneously measuring multiband emissions. We observe in these experiments that matter, upon impact, is laterally ejected from the solid surface, then refocused by the magnetic field toward the incoming stream. Such ejected matter forms a plasma shell that envelops the shocked core, reducing escaped X-ray emission. This demonstrates one possible structure reconciling current discrepancies between mass accretion rates derived from X-ray and optical observations.

Published
2017

12. Collimated protons accelerated from an overdense gas jet irradiated by a 1 micron wavelength high-intensity short-pulse laser

Author

Chen, S. N., Vranic, M., Gangolf, T., Boella, E., Antici, P., Bailly-Grandvaux, M., Loiseau, P., Pépin, H., Revet, G., Santos, J. J., Schroer, A. M., Starodubtsev, M., Willi, O., Silva, L. O., Humières, E. d, and Fuchs, J.

Subjects
Physics - Plasma Physics
Abstract

We have investigated proton acceleration in the forward direction from a near-critical density hydrogen gas jet target irradiated by a high intensity (10^18 W/cm^2), short-pulse (5 ps) laser with wavelength of 1.054 micron. We observe the signature of shock acceleration driven by the laser pulse, leading to monoenergetic proton beams with small divergence in addition to the commonly used electron-sheath driven proton acceleration. The proton energies we obtained are modest (~MeV), but prospects for improvement are offered through tailoring the gas jet density profile. Also, we observe that this mechanism is very robust in producing those beams and thus can be considered as a future candidate in laser-driven ion sources driven by the upcoming next generation of multi-PW near-infrared lasers.

Published
2017

13. Experimental evidence for the enhanced and reduced stopping regimes for protons propagating through hot plasmas.

Author

Chen, SN, Atzeni, S, Gangolf, T, Gauthier, M, Higginson, DP, Hua, R, Kim, J, Mangia, F, McGuffey, C, Marquès, J-R, Riquier, R, Pépin, H, Shepherd, R, Willi, O, Beg, FN, Deutsch, C, and Fuchs, J

Abstract

Our understanding of the dynamics of ion collisional energy loss in a plasma is still not complete, in part due to the difficulty and lack of high-quality experimental measurements. These measurements are crucial to benchmark existing models. Here, we show that such a measurement is possible using high-flux proton beams accelerated by high intensity short pulse lasers, where there is a high number of particles in a picosecond pulse, which is ideal for measurements in quickly expanding plasmas. By reducing the energy bandwidth of the protons using a passive selector, we have made proton stopping measurements in partially ionized Argon and fully ionized Hydrogen plasmas with electron temperatures of hundreds of eV and densities in the range 1020-1021 cm-3. In the first case, we have observed, consistently with previous reports, enhanced stopping of protons when compared to stopping power in non-ionized gas. In the second case, we have observed for the first time the regime of reduced stopping, which is theoretically predicted in such hot and fully ionized plasma. The versatility of these tunable short-pulse laser based ion sources, where the ion type and energy can be changed at will, could open up the possibility for a variety of ion stopping power measurements in plasmas so long as they are well characterized in terms of temperature and density. In turn, these measurements will allow tests of the validity of existing theoretical models.

Published
2018

14. Beamed neutron emission driven by laser accelerated light ions

Author

Kar, S., Green, A., Ahmed, H., Alejo, A., Robinson, A. P. L., Cerchez, M., Clarke, R., Doria, D., Dorkings, S., Fernandez, J., Mirfyazi, S. R., McKenna, P., Naughton, K., Neely, D., Norreys, P., Peth, C., Powell, H., Ruiz, J. A., Swain, J., Willi, O., and Borghesi, M.

Subjects
Physics - Plasma Physics, Nuclear Experiment, Physics - Accelerator Physics
Abstract

We report on the experimental observation of beam-like neutron emission with peak flux of the order of 10^9 n/sr, from light nuclei reactions in a pitcher-catcher scenario, by employing MeV ions driven by high power laser. The spatial profile of the neutron beam, fully captured for the first time by employing a CR39 nuclear track detector, shows a FWHM divergence angle of 70 degrees, with a peak flux nearly an order of magnitude higher than the isotropic component elsewhere. The observed beamed flux of neutrons is highly favourable for a wide range of applications, and indeed for further transport and moderation to thermal energies. A systematic study employing various combinations of pitcher-catcher materials indicates the dominant reactions being d(p, n+p)^1H and d(d,n)^3He. Albeit insufficient cross-section data are available for modelling, the observed anisotropy in the neutrons' spatial and spectral profiles are most likely related to the directionality and high energy of the projectile ions., Comment: 6 pages, 7 figures

Published
2015

15. Mechanism of runaway electron beam formation during plasma disruptions in tokamaks

Author

Abdullaev, S. S., Finken, K. H., Wongrach, K., Tokar, M., Koslowski, H. R., Willi, O., Zeng, L., and team, the TEXTOR

Subjects
Physics - Plasma Physics
Abstract

A new physical mechanism of formation of runaway electron (RE) beams during plasma disruptions in tokamaks is proposed. The plasma disruption is caused by a strong stochastic magnetic field formed due to nonlinearly excited low-mode number magnetohydrodynamic (MHD) modes. It is conjectured that the runaway electron beam is formed in the central plasma region confined inside the intact magnetic surface located between $q=1$ and the closest low--order rational magnetic surfaces [$q=5/4$ or $q=4/3$, \dots]. It results in that runaway electron beam current has a helical nature with a predominant $m/n=1/1$ component. The thermal quench and current quench times are estimated using the collisional models for electron diffusion and ambipolar particle transport in a stochastic magnetic field, respectively. Possible mechanisms for the decay of the runaway electron current owing to an outward drift electron orbits and resonance interaction of high--energy electrons with the $m/n=1/1$ MHD mode are discussed., Comment: 5 pages, 4 figures, one table. arXiv admin note: text overlap with arXiv:1501.01404

Published
2015
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16. Mechanisms of plasma disruption and runaway electron losses in tokamaks

Author

Abdullaev, S. S., Finken, K. H., Wongrach, K., Tokar, M., Koslowski, H. R., Willi, O., Zeng, L., and team, the TEXTOR

Subjects
Physics - Plasma Physics
Abstract

Based on the analysis of data from the numerous dedicated experiments on plasma disruptions in the TEXTOR tokamak the mechanisms of the formation of runaway electron beams and their losses are proposed. The plasma disruption is caused by strong stochastic magnetic field formed due to nonlinearly excited low-mode number magnetohydrodynamic (MHD) modes. It is hypothesized that the runaway electron beam is formed in the central plasma region confined by an intact magnetic surface due to the acceleration of electrons by the inductive toroidal electric field. In the case of plasmas with the safety factor $q(0)<1$ the most stable runaway electron beams are formed by the intact magnetic surface located between the magnetic surface $q=1$ and the closest low--order rational surface $q=m/n>1$ ($q=5/4$, $q=4/3$, ...). The thermal quench time the current quench time are estimated. The runaway electron beam current is modeled as a sum of toroidally symmetric part and a small amplitude helical current with a predominant $m/n=1/1$ component. The runaway electrons are lost due to two effects: ($i$) by outward drift of electrons in a toroidal electric field until they touch wall and ($ii$) by the formation of stochastic layer of runaway electrons at the beam edge. Such a stochastic layer for high--energy runaway electrons is formed in the presence of the $m/n=1/1$ MHD mode. It has a mixed topological structure with a stochastic region open to wall. The effect of external resonant magnetic perturbations on runaway electron loss is discussed. A possible cause of the sudden MHD signals accompanied by runaway electron bursts is explained by the redistribution of runaway current during the resonant interaction of high--energetic electron orbits with the $m/n=1/1$ MHD mode., Comment: 34 pages, 18 figures, 2 tables

Published
2015

19. Time-resolved characterization of the formation of a collisionless shock

Author

Ahmed, H, Dieckmann, ME, Romagnani, L, Doria, D, Sarri, G, Cherchez, M, Ianni, E, Kourakis, I, Giesecke, AL, Notley, M, Prasad, R, Quinn, K, Willi, O, and Borghesi, M

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Physics - Plasma Physics
Abstract

We report on the temporally and spatially resolved detection of the precursory stages that lead to the formation of an unmagnetized, supercritical collision-less shock in a laser-driven laboratory experiment. The measured evolution of the electrostatic potential associated with the shock unveils the transition from a current free double layer into a symmetric shock structure, stabilized by ion reflection at the shock front. Supported by a matching Particle-In-Cell simulation and theoretical considerations, we suggest that this process is analogeous to ion reflection at supercritical collisionless shocks in supernova remnants., Comment: 5 pages, 4 figures, accepted for publication in Physical Review Letters

Published
2013
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20. Dynamics of self-generated, large amplitude magnetic fields following high-intensity laser matter interaction

Author

Sarri, G., Macchi, A., Cecchetti, C. A., Kar, S., Liseykina, T. V., Yang, X. H., Dieckmann, M. E., Fuchs, J., Galimberti, M., Gizzi, L. A., Jung, R., Kourakis, I., Osterholz, J., Pegoraro, F., Robinson, A. P. L., Romagnani, L., Willi, O., and Borghesi, M.

Subjects
Physics - Plasma Physics
Abstract

The dynamics of magnetic fields with amplitude of several tens of Megagauss, generated at both sides of a solid target irradiated with a high intensity (? 1019W/cm2) picosecond laser pulse, has been spatially and temporally resolved using a proton imaging technique. The amplitude of the magnetic fields is sufficiently large to have a constraining effect on the radial expansion of the plasma sheath at the target surfaces. These results, supported by numerical simulations and simple analytical modeling, may have implications for ion acceleration driven by the plasma sheath at the rear side of the target as well as for the laboratory study of self-collimated high-energy plasma jets., Comment: Accepted for publication in Physical Review Letters

Published
2012
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21. Ion acceleration in multispecies targets driven by intense laser radiation pressure

Author

Kar, S., Kakolee, K. F., Qiao, B., Macchi, A., Cerchez, M., Doria, D., Geissler, M., McKenna, P., Neely, D., Osterholz, J., Prasad, R., Quinn, K., Ramakrisna, B., Sarri, G., Willi, O., Yuan, X. Y., Zepf, M., and Borghesi, M.

Subjects
Physics - Plasma Physics
Abstract

The acceleration of ions from ultra-thin foils has been investigated using 250 TW, sub-ps laser pulses, focused on target at intensities up to $3\times10^{20} \Wcm2$. The ion spectra show the appearance of narrow band features for proton and Carbon peaked at higher energy (in the 5-10 MeV/nucleon range) and with significantly higher flux than previously reported. The spectral features, and their scaling with laser and target parameters, provide evidence of a multispecies scenario of Radiation Pressure Acceleration in the Light Sail mode, as confirmed by analytical estimates and 2D Particle In Cell simulations. The scaling indicates that monoenergetic peaks with more than 100 MeV/nucleon energies are obtainable with moderate improvements of the target and laser characteristics, which are within reach of ongoing technical developments.

Published
2012
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23. Observation and characterization of laser-driven Phase Space Electron Holes

Author

Sarri, G., Dieckmann, M. E., Brown, C. R. D., Cecchetti, C. A., Hoarty, D. J., James, S. F., Jung, R., Kourakis, I., Schamel, H., Willi, O., and Borghesi, M.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

The direct observation and full characterization of a Phase Space Electron Hole (EH) generated by laser-matter interaction is presented. This structure has been detected via proton radiography during the interaction between an intense laser pulse (t=1ns temporally flat-top, I= 10^14W/cm^2) and a gold 26 micron thick hohlraum. This technique has allowed us the simultaneous detection of propagation velocity, potential and electron density spatial profile across the EH with fine spatial and temporal resolution providing an unprecedentedly detailed experimental characterization.

Published
2009
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24. Extreme ultraviolet emission from dense plasmas generated with sub-10-fs laser pulses

Author

Osterholz, J., Brandl, F., Cerchez, M., Fischer, T., Hemmers, D., Hidding, B., Pipahl, A., Pretzler, G., Rose, S. J., and Willi, O.

Subjects
Physics - Plasma Physics
Abstract

The extreme ultraviolet (XUV) emission from dense plasmas generated with sub-10-fs laser pulses with varying peak intensities up to 3*10^16 W/cm^2 is investigated for different target materials. K shell spectra are obtained from low Z targets (carbon and boron nitride). In the spectra a series limit for the hydrogen and helium like resonance lines is observed indicating that the plasma is at high density and pressure ionization has removed the higher levels. In addition, L shell spectra from titanium targets were obtained. Basic features of the K and L shell spectra are reproduced with computer simulations. The calculations include hydrodynamic simulation of the plasma expansion and collisional radiative calculations of the XUV emission., Comment: 22 pages, 11 figures. The following article has been submitted to Physics of Plasmas. After it is published, it will be found at http://pop.aip.org/

Published
2008
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25. Absorption of Ultrashort Laser Pulses in Strongly Overdense Targets

Author

Cerchez, M., Jung, R., Osterholz, J., Toncian, T., Willi, O., Mulser, P., and Ruhl, H.

Subjects
Physics - Plasma Physics
Abstract

We report on the first absorption experiments of sub-10 fs high-contrast Ti:Sa laser pulses incident on solid targets. The very good contrast of the laser pulse assures the formation of a very small pre-plasma and the pulse interacts with the matter close to solid density. Experimental results indicate that p-polarized laser pulses are absorbed up to 80 percent at 80 degrees incidence angle. The simulation results of PSC PIC code clearly confirm the observations and show that the collisionless absorption works efficiently in steep density profiles.

Published
2008
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26. Transient electric fields in laser plasmas observed by proton streak deflectometry

Author

Sokollik, T., Schnuerer, M., Ter-Avetisyan, S., Nickles, P. V., Risse, E., Kalashnikov, M., Sandner, W., Priebe, G., Amin, M., Toncian, T., Willi, O., and Andreev, A. A.

Subjects
Physics - Plasma Physics
Abstract

A novel proton imaging technique was applied which allows a continuous temporal record of electric fields within a time window of several nanoseconds. This "proton streak deflectometry" was used to investigate transient electric fields of intense (~ 10^17 W/cm^2) laser irradiated foils. We found out that these fields with an absolute peak of up to 10^8 V/m extend over millimeter lateral extension and decay at nanosecond duration. Hence, they last much longer than the (~ ps) laser excitation, and extend much beyond the laser irradiation focus.

Published
2008
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27. Generation and Observation of Coherent, Long--Lived Structures in a Laser--Plasma Channel

Author

Liseykina, T. V., Ceccherini, F., Cornolti, F., Echkina, E. Yu., Macchi, A., Pegoraro, F., Borghesi, M., Kar, S., Romagnani, L., Bulanov, S. V., Willi, O., and Galimberti, M.

Subjects
Physics - Plasma Physics
Abstract

In recent experiments of laser pulse interaction at relativistic intensities with a low density plasma, the proton radiography technique showed evidence of long--lived field structures generated after the self-channeling of the laser pulse. We present 2D particle-in-cell simulations of this interaction regime, where the dynamics of similar structures has been resolved with high temporal and spatial resolution. An axially symmetrical field pattern, resembling both soliton-like and vortex structures, has been observed. A study of the physics of such structures and a comparison with experimental data is in progress., Comment: To appear in the Proceedings of the International Workshop "Collective phenomena in macroscopic systems", Villa Olmo, Como, Italy, December 4-6, 2006; 9 pages, 8 figures submitted in GIF format

Published
2007
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28. Dynamics of charge-displacement channeling in intense laser-plasma interactions

Author

Kar, S., Borghesi, M., Cecchetti, C. A., Romagnani, L., Ceccherini, F., Liseykina, T. V., Macchi, A., Jung, R., Osterholz, J., Willi, O., Galimberti, M., Gizzi, L. A., Schiavi, A., and Heathcote, R.

Subjects
Physics - Plasma Physics
Abstract

The dynamics of transient electric fields generated by the interaction of high intensity laser pulses with underdense plasmas has been studied experimentally with the proton projection imaging technique. The formation of a charged channel, the propagation of its front edge and the late electric field evolution have been characterised with high temporal and spatial resolution. Particle-in-cell simulations and an electrostatic, ponderomotive model reproduce the experimental features and trace them back to the ponderomotive expulsion of electrons and the subsequent ion acceleration., Comment: 5 figures, accepted for publication in New Journal of Physics

Published
2007

29. Analyzing laser-plasma interferograms with a Continuous Wavelet Transform Ridge Extraction technique: the method

Author

Tomassini, P., Giulietti, A., Gizzi, L. A., Galimberti, M., Giulietti, D., Borghesi, M., and Willi, O.

Subjects
Physics - Plasma Physics, Physics - Optics
Abstract

Laser-plasma interferograms are currently analyzed by extracting the phase-shift map with FFT techniques (K.A.Nugent, Applied Optics {\bf 18}, 3101 (1985)). This methodology works well when interferograms are only marginally affected by noise and reduction of fringe visibility, but it can fail in producing accurate phase-shifts maps when dealing with low-quality images. In this paper we will present a novel procedure for the phase-shift map computation which makes an extensive use of the Ridge Extraction in the Continuous Wavelet Transform (CWT) framework. The CWT tool is {\it flexible} because of the wide adaptability of the analyzing basis and it can be very {\it accurate} because of the intrinsic noise reduction in the Ridge Extraction. A comparative analysis of the accuracy performances of the new tool and the FFT-based one shows that the CWT-based tool phase maps are considerably less noisy and it can better resolve local inhomogeneties.

Published
2001
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34. Probing bulk electron temperature via x-ray emission in a solid density plasma

Author

Makur, K, primary, Ramakrishna, B, additional, Krishnamurthy, S, additional, Kakolee, K F, additional, Kar, S, additional, Cerchez, M, additional, Prasad, R, additional, Markey, K, additional, Quinn, M N, additional, Yuan, X H, additional, Green, J S, additional, Scott, R H H, additional, McKenna, P, additional, Osterholz, J, additional, Willi, O, additional, Norreys, P A, additional, Borghesi, M, additional, and Zepf, M, additional

Published
2023
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35. Dual stage approach to laser-driven helical coil proton acceleration

Author

Ferguson, S, primary, Martin, P, additional, Ahmed, H, additional, Aktan, E, additional, Alanazi, M, additional, Cerchez, M, additional, Doria, D, additional, Green, J S, additional, Greenwood, B, additional, Odlozilik, B, additional, Willi, O, additional, Borghesi, M, additional, and Kar, S, additional

Published
2023
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40. Calibration of BAS-TR image plate response to GeV gold ions

Author

Doria, D., primary, Martin, P., additional, Ahmed, H., additional, Alejo, A., additional, Cerchez, M., additional, Ferguson, S., additional, Fernandez-Tobias, J., additional, Green, J. S., additional, Gwynne, D., additional, Hanton, F., additional, Jarrett, J., additional, Maclellan, D. A., additional, McIlvenny, A., additional, McKenna, P., additional, Ruiz, J. A., additional, Swantusch, M., additional, Willi, O., additional, Zhai, S., additional, Borghesi, M., additional, and Kar, S., additional

Published
2022
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47. Design and commissioning of a neutron counter adapted to high-intensity laser matter interactions

Author

Lelasseux, V., primary, Söderström, P.-A., additional, Aogaki, S., additional, Burdonov, K., additional, Cerchez, M., additional, Chen, S. N., additional, Dorard, S., additional, Fazzini, A., additional, Gugiu, M., additional, Pikuz, S., additional, Rotaru, F., additional, Willi, O., additional, Negoita, F., additional, and Fuchs, J., additional

Published
2021
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