Your search keyword '"Zepf M"' showing total 129 results

1. Electrostatic capacitance-type acceleration of ions with an intense few-cycle laser pulse.

Author

Shen, X. F., Qiao, B., Zhang, H., Xie, Y., Kar, S., Borghesi, M., Zepf, M., Zhou, C. T., Zhu, S. P., and He, X. T.

Subjects

ELECTROSTATICS, ELECTRIC capacity, ION beams, LASER pulses, HEAVY ions, RADIATION pressure

Abstract

We use large scale, three-dimensional particle-in-cell simulations to demonstrate that a high-quality energetic ion beam can be stably generated by irradiation of a multi-species nanofoil target with an intense few-cycle laser pulse. In this scheme named "electrostatic capacitance-type acceleration," the light ions of the nanofoil are accelerated by a uniform capacitor-like electrostatic field induced by the laser-blown-out electrons that act like the cathode of a capacitor, while the heavy ions left behind serve as the anode. This scheme overcomes the inherent obstacles existing in the other acceleration mechanisms, such as uncontrollability of target normal sheath acceleration and instability of radiation pressure acceleration. Theoretical studies and three-dimensional particle-in-cell simulations show that this acceleration scheme is much more stable and efficient than the previous ones, by which 100 MeV monoenergetic proton beams (energy spread <10%) can be obtained with a laser energy less than 10 J, and the giga electron volt ones with about 100 J. [ABSTRACT FROM AUTHOR]

Published

2019

2. Stability of 'Ultrathin Solid Targets in the Radiation Pressure Dominated Regime

Author

Bellei, C., Evans, R. G., Atzeni, Stefano, Robinson, A. P. L., Kar, S., and Zepf, M.

Published

2007

3. Biological effectiveness on live cells of laser driven protons at dose rates exceeding 109 Gy/s

Author

Doria, D, Kakolee, KF, Kar, S, Litt, SK, Fiorini, F, Ahmed, H, Green, S, Jeynes, JCJ, Kavanagh, J, Kirby, D, Kirkby, KJ, Merchant, MJ, Nersisyan, G, Prasad, R, Prise, KM, Schettino, G, Zepf, M, Borghesi, M, Doria, D, Kakolee, KF, Kar, S, Litt, SK, Fiorini, F, Ahmed, H, Green, S, Jeynes, JCJ, Kavanagh, J, Kirby, D, Kirkby, KJ, Merchant, MJ, Nersisyan, G, Prasad, R, Prise, KM, Schettino, G, Zepf, M, and Borghesi, M

Abstract

The ultrashort duration of laser-driven multi-MeV ion bursts offers the possibility of radiobiological studies at extremely high dose rates. Employing the TARANIS Terawatt laser at Queen’s University, the effect of proton irradiation at MeV-range energies on live cells has been investigated at dose rates exceeding 109 Gy/s as a single exposure. A clonogenic assay showed consistent lethal effects on V-79 live cells, which, even at these dose rates, appear to be in line with previously published results employing conventional sources. A Relative Biological Effectiveness (RBE) of 1.4±0.2 at 10% survival is estimated from a comparison with a 225kKVp X-ray source.

Published

2012

4. Calibration of BAS-TR image plate response to high energy (3-300 MeV) carbon ions.

Author

Doria, D., Kar, S., Ahmed, H., Alejo, A., Fernandez, J., Cerchez, M., Gray, R. J., Hanton, F., MacLellan, D. A., McKenna, P., Najmudin, Z., Neely, D., Romagnani, L., Ruiz, J. A., Sarri, G., Scullion, C., Streeter, M., Swantusch, M., Willi, O., and Zepf, M.

Subjects

SOLID state detectors, CALIBRATION, SPECTROMETERS, ION energy, EXTRAPOLATION

Abstract

The paper presents the calibration of Fuji BAS-TR image plate (IP) response to high energy carbon ions of different charge states by employing an intense laser-driven ion source, which allowed access to carbon energies up to 270 MeV. The calibration method consists of employing a Thomson parabola spectrometer to separate and spectrally resolve different ion species, and a slotted CR-39 solid state detector overlayed onto an image plate for an absolute calibration of the IP signal. An empirical response function was obtained which can be reasonably extrapolated to higher ion energies. The experimental data also show that the IP response is independent of ion charge states. [ABSTRACT FROM AUTHOR]

Published

2015

5. Ti Kα radiography of Cu-doped plastic microshell implosions via spherically bent crystal imaging

Author

King, J. A., Akli, K., Zhang, B., Freeman, R. R., Key, M. H., Chen, C. D., Hatchett, S. P., Koch, J. A., MacKinnon, A. J., Patel, P. K., Snavely, R., Town, R. P. J., Borghesi, M., Romagnani, L., Zepf, M., Cowan, T., Habara, H., Kodama, R., Toyama, Y., Karsch, S., Lancaster, K., Murphy, C., Norreys, P., Stephens, R., Stoeckl, C., King, J. A., Akli, K., Zhang, B., Freeman, R. R., Key, M. H., Chen, C. D., Hatchett, S. P., Koch, J. A., MacKinnon, A. J., Patel, P. K., Snavely, R., Town, R. P. J., Borghesi, M., Romagnani, L., Zepf, M., Cowan, T., Habara, H., Kodama, R., Toyama, Y., Karsch, S., Lancaster, K., Murphy, C., Norreys, P., Stephens, R., and Stoeckl, C.

Abstract

Copyright 2005 American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics. The following article appeared in Applied Physics Letters, 86(19), 191501_1-191501_3, 2005 and may be found at http://dx.doi.org/10.1063/1.1923178

Published

2005

6. Signatures of quantum radiation reaction in laser-electron-beam collisions.

Author

Wang, H. Y., Yan, X. Q., and Zepf, M.

Subjects

QUANTUM theory, LASER beams, ULTRASHORT laser pulses, QUANTUM electrodynamics, ELECTRON energy states

Abstract

Electron dynamics in the collision of an electron beam with a high-intensity focused ultrashort laser pulse are investigated using three-dimensional QED particle-in-cell (PIC) simulations, and the results are compared with those calculated by classical Landau and Lifshitz PIC simulations. Significant differences are observed from the angular dependence of the electron energy distribution patterns for the two different approaches, because photon emission is no longer well approximated by a continuous process in the quantum radiation-dominated regime. The stochastic nature of photon emission results in strong signatures of quantum radiation-reaction effects under certain conditions. We show that the laser spot size and duration greatly influence these signatures due to the competition of QED effects and the ponderomotive force, which is well described in the classical approximation. The clearest signatures of quantum radiation reaction are found in the limit of large laser spots and few cycle pulse durations. [ABSTRACT FROM AUTHOR]

Published

2015

7. Selective deuterium ion acceleration using the Vulcan petawatt laser.

Author

Krygier, A. G., Morrison, J. T., Kar, S., Ahmed, H., Alejo, A., Clarke, R., Fuchs, J., Green, A., Jung, D., Kleinschmidt, A., Najmudin, Z., Nakamura, H., Norreys, P., Notley, M., Oliver, M., Roth, M., Vassura, L., Zepf, M., Borghesi, M., and Freeman, R. R.

Subjects

DEUTERIUM ions, PLASMA lasers, PLASMA-beam interactions, HYDROCARBONS, ION beams

Abstract

We report on the successful demonstration of selective acceleration of deuterium ions by target-normal sheath acceleration (TNSA) with a high-energy petawatt laser. TNSA typically produces a multi-species ion beam that originates from the intrinsic hydrocarbon and water vapor contaminants on the target surface. Using the method first developed by Morrison et al. [Phys. Plasmas 19, 030707 (2012)], an ion beam with >99% deuterium ions and peak energy 14 MeV/nucleon is produced with a 200 J, 700 fs, >1020W/cm² laser pulse by cryogenically freezing heavy water (D2O) vapor onto the rear surface of the target prior to the shot. Within the range of our detectors (0°-8.5°), we find laser-to-deuterium-ion energy conversion efficiency of 4.3% above 0.7 MeV/nucleon while a conservative estimate of the total beam gives a conversion efficiency of 9.4%. [ABSTRACT FROM AUTHOR]

Published

2015

8. Gamma-ray emission in near critical density plasmas at laser intensities of 1021 W/cm².

Author

Wang, H. Y., Liu, B., Yan, X. Q., and Zepf, M.

Subjects

GAMMA rays, PLASMA gases, PARTICLES (Nuclear physics), PLASMA density, ANGULAR distribution (Nuclear physics), SYNCHROTRON radiation

Abstract

We study synchrotron radiation emission from laser interaction with near critical density (NCD) plasmas at intensities of 1021 W/cm² using three-dimensional particle-in-cell simulations. It is found that the electron dynamics depend on the laser shaping process in NCD plasmas, and thus the angular distribution of the emitted photons changes as the laser pulse evolves in space and time. The final properties of the resulting synchrotron radiation, such as its overall energy, the critical photon energy, and the radiation angular distribution, are strongly affected by the laser polarization and plasma density. By using a 420 TW/50 fs laser pulse at the optimal plasma density (~1nc), about 108 photons/0.1% bandwidth are produced at multi-MeV photon energies, providing a route to ultraintense, femtosecond gamma ray pulses. [ABSTRACT FROM AUTHOR]

Published

2015

9. On the analysis of inhomogeneous magnetic field spectrometer for laser-driven ion acceleration.

Author

Jung, D., Senje, L., McCormack, O., Yin, L., Albright, B. J., Letzring, S., Gautier, D. C., Dromey, B., Toncian, T., Fernandez, J. C., Zepf, M., and Hegelich, B. M.

Subjects

SPECTROMETERS, ION beams, LASER beams, MAGNETIC fields, ION energy

Abstract

We present a detailed study of the use of a non-parallel, inhomogeneous magnetic field spectrometer for the investigation of laser-accelerated ion beams. Employing a wedged yoke design, we demonstrate the feasibility of an in-situ self-calibration technique of the non-uniform magnetic field and show that high-precision measurements of ion energies are possible in a wide-angle configuration. We also discuss the implications of a stacked detector system for unambiguous identification of different ion species present in the ion beam and explore the feasibility of detection of high energy particles beyond 100 MeV/amu in radiation harsh environments. [ABSTRACT FROM AUTHOR]

Published

2015

10. Biological cell irradiation at ultrahigh dose rate employing laser driven protons.

Author

Doria, D., Kakolee, K. F., Kar, S., Litt, S. K., Fiorini, F., Ahmed, H., Green, S., Jeynes, JC. G., Kavanagh, J., Kirby, D., Kirkby, K. J., Lewis, C. L., Merchant, M. J., Nersisyan, G., Prasad, R., Prise, K. M., Schettino, G., Zepf, M., and Borghesi, M.

Subjects

PROTONS, ULTRASHORT laser pulses, EFFECT of radiation on cells, RADIOBIOLOGY, FORCE & energy, BIOLOGICAL assay, X-ray bursts

Abstract

The ultrashort duration of laser-driven multi-MeV ion bursts offers the possibility of radiobiological studies at extremely high dose rates. Employing the TARANIS Terawatt laser at Queen's University, the effect of proton irradiation at MeV-range energies on live cells has been investigated at dose rates exceeding 109Gy/s as a single exposure. A clonogenic assay showed consistent lethal effects on V-79 live cells, which, even at these dose rates, appear to be in line with previously published results employing conventional sources. A Relative Biological Effectiveness (RBE) of 1.4±0.2 at 10% survival is estimated from a comparison with a 225 kVp X-ray source. [ABSTRACT FROM AUTHOR]

Published

2012

11. Laser Driven Ion accelerators—current status and perspective.

Author

Zepf, M. and Robinson, A. P. L.

Subjects

*LASERS, *ION accelerators, *PROPERTIES of matter, *ACCELERATION (Mechanics), *OPTOELECTRONIC devices, *RADIATION, *ION bombardment

Abstract

The interaction of ultra-intense lasers with thin foil targets has recently emerged as a route to achieving extreme acceleration gradients and hence ultra-compact proton and ion accelerators. There are a number of distinct physical processes by which the protons/ions can be accelerated to energies in excess of 10 MeV. The recent development is discussed and a new mechanism—Radiation Pressure Acceleration is highlighted as a route to achieving efficient production of relativistic ions beams. [ABSTRACT FROM AUTHOR]

Published

2009

12. Laser driven MeV proton beam focussing by auto-charged electrostatic lens configuration.

Author

Kar, S., Markey, K., Simpson, P. T., Bellei, C., Green, J. S., Nagel, S. R., Kneip, S., Carroll, D. C., Dromey, B., Willingale, L., Clark, E. L., McKenna, P., Najmudin, Z., Krushelnick, K., Norreys, P., Clarke, R. J., Neely, D., Borghesi, M., Schiavi, A., and Zepf, M.

Subjects

PROTON beams, PROTONS, ELECTROSTATICS, METAL foils, PARTICLE beams

Abstract

Significant reduction of inherent large divergence of the laser driven MeV proton beams is achieved by strong (of the order of 109 V/m) electrostatic focussing field generated in the confined region of a suitably shaped structure attached to the proton generating foil. The scheme exploits the positively charging of the target following an intense laser interaction. Reduction in the proton beam divergence, and commensurate increase in proton flux is observed while preserving the beam laminarity. The underlying mechanism has been established by the help of particle tracing simulations. Dynamic focussing power of the lens, mainly due to the target discharging, can also be exploited in order to bring up the desired chromaticity of the lens for the proton beams of broad energy range. [ABSTRACT FROM AUTHOR]

Published

2008

13. Effects of laser prepulse on proton generation: active manipulation of the distribution of laser accelerated proton beams.

Author

Batani, D., Redaelli, R., Dezulian, R., Lundh, O., Lindau, F., Persson, A., Osvay, K., Wahlström, C.-G., Carroll, D. C., McKenna, P., Bandyopadhyay, S., Pepler, D., Neely, D., Kar, S., Simpson, P. T., Markey, K., Zepf, M., Xu, M. H., and Li, Y. T.

Subjects

PROTON beams, LASER beams, LASERS, PROTONS, SHOCK wave diffraction

Abstract

Laser pre-pulse is a major issue in experiments on laser-generation of protons, often limiting the performances of laser sources. In this paper, we show how we can actively use a low intensity prepulse (<1013 W/cm2, ns duration) to manipulate the proton beam direction or spatial energy distribution. The prepulse is focused onto the front surface of a thin foil before the arrival of the high intensity pulse (≈1019 W/cm2, ps duration). Under oblique high-intensity irradiation and for low prepulse intensities, the proton beam is directed away from the target normal. Deviation is towards the laser forward direction, with an angle that increases with the level and duration of the ASE pedestal. Also, for a given laser pulse, beam deviation increases with proton energy. The observations are discussed in terms of Target Normal Sheath Acceleration, in combination with a laser-controllable shock wave locally deforming the target surface. Results obtained with an annular intensity distribution of the prepulse show smooth proton beams with a sharp circular boundary at all energies. Potential mechanisms to explain the observations are discussed. [ABSTRACT FROM AUTHOR]

Published

2008

14. The Production of Hypersonic, Radiatively Cooled Plasma Projectiles of Extremely High Energy Density in Imploding Z-pinches.

Author

Chittenden, J. P., Dunne, A. M., Zepf, M., Lebedev, S. V., Ciardi, A., and Bland, S. N.

Subjects

Z bosons, PLASMA gases, PLASMA jets

Abstract

Experiments with conical wire array Z-pinches, have shown that a highly supersonic tungsten plasma jet can be formed, with the presence of strong radiative cooling resulting in a very small flow divergence. In this work, we explore the possibilities of exploiting a similar effect in imploding wire arrays to produce a high velocity, dense plasma projectile. 2D(r,z) MIlD simulations of imploding Z-pinches on the 'Z' generator, with a shaped mass per unit length, indicate the production of a projectile with velocity, density and diameter comparable to the final implosion velocity and stagnated plasma density and diameter in present wire array Z-pinch experiments. This represents an enormous (∼100TW) kinetic power delivered out of the end of the pinch. 2D radiation hydrodynamic simulations of the projectile impacting a solid tungsten foil are used to estimate the potential for generating both compact radiation sources and target plasmas of extremely high energy density. Results indicate that pressures of 2 Gbar and radiation temperatures of ∼660eV are produced in the target. 3D view factor simulations of a double ended hohlraum system with twin projectiles and converter foils are used to evaluate these radiation sources for use in indirect drive inertial confinement fusion research. Results suggest that a fluxequivalent peak temperature of ∼225eV could be delivered to a NIF scale ICF capsule. [ABSTRACT FROM AUTHOR]

Published

2002

15. Nuclear diagnostics of high intensity laser plasma interactions.

Author

Krushelnick, K., Santala, M. I. K., Ledingham, K. W. D., Beg, F. N., Clark, E. L., Clarke, R. J., Dangor, A. E., McCanny, T., Norreys, P. A., Spencer, I., Tatarakis, M., Watts, I., Wei, M. S., and Zepf, M.

Subjects

LASER-plasma interactions, PROTON spectra, CONTROLLED fusion

Abstract

Nuclear activation has been observed in materials exposed to energetic protons and heavy ions generated from high intensity laser-solid interactions (at focused intensities up to 5×10[sup 19] W/cm[sup 2]). The energy spectrum of the protons is determined through the use of these nuclear activation techniques and is found to be consistent with other ion diagnostics. Heavy ion fusion reactions and large neutron fluxes from the (p, n) reactions were also observed. The reduction of proton emission and increase in heavy ion energy using heated targets was also observed. © 2002 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2002

16. High intensity laser generation of proton beams for the production of β[sup +] sources used in positron emission tomography.

Author

Spencer, I., Ledingham, K. W. D., Singhal, R. P., McCanny, T., Clark, E. L., Krushelnick, K., Zepf, M., Beg, F. N., Tatarakis, M., Escoda, C., Norrefeldt, M., Dangor, A. E., Norreys, P. A., Clarke, R. J., and Allott, R. M.

Subjects

HIGH power lasers, PROTON therapy

Abstract

Protons of energies up to 37 MeV have been generated using ultra-intense laser-solid interactions. These protons can be used to induce nuclear reactions in materials to produce β[sup +] emitting nuclei of relevance to the nuclear medicine community for Positron Emission Tomography, namely [sup 11]C and [sup 13]N via (p,n) and (p,α) reactions. Activities of the order of 100 kBq have been measured from a single laser pulse. The possibility of using ultraintense lasers as a substitute to cyclotrons for isotope production is discussed. © 2001 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2001

17. New design of a multi-jet target for quasi phase matching.

Author

Hage, A., Landgraf, B., Taylor, M., Wünsche, M., Gangolf, T., Höppner, H., Prandolini, M. J., Riede, R., Schulz, M., Tavella, F., Willner, A., Yeung, M., Paulus, G. G., Spielmann, C., Dromey, B., and Zepf, M.

Subjects

JETS (Fluid dynamics), HARMONIC generation, OPTICAL phase matching, SCIENTIFIC apparatus & instruments, RESEARCH equipment

Abstract

An improved dual-gas quasi-phase matching (QPM) foil target for high harmonic generation (HHG) is presented. The target can be setup with 12 individual gas inlets each feeding multiple nozzles separated by a minimum distance of 10 µm. Three-dimensional gas density profiles of these jets were measured using a Mach-Zehnder Interferometer. These measurements reveal how the jets influence the density of gas in adjacent jets and how this leads to increased local gas densities. The analysis shows that the gas profiles of the jets are well defined up to a distance of about 300 µm from the orifice. This target design offers experimental flexibility, not only for HHG/QPM investigations, but also for a wide range of experiments due to the large number of possible jet configurations. We demonstrate the application to controlled phase tuning in the extreme ultraviolet using a 1 kHz-10 mJ-30 fs-laser system where interference between two jets in the spectral range from 17 to 30 nm was observed. [ABSTRACT FROM AUTHOR]

Published

2014

18. Collimated proton acceleration in light sail regime with a tailored pinhole target.

Author

Wang, H. Y., Yan, X. Q., and Zepf, M.

Subjects

COLLIMATORS, PROTONS, ACCELERATION (Mechanics), PINHOLE cameras, ELECTRIC fields, RADIATION pressure

Abstract

A scheme for producing collimated protons from laser interactions with a diamond-likecarbonþpinhole target is proposed. The process is based on radiation pressure acceleration in the multi-species light-sail regime [B. Qiao et al., Phys. Rev. Lett. 105, 155002 (2010); T. P. Yu et al., Phys. Rev. Lett. 105, 065002 (2010)]. Particle-in-cell simulations demonstrate that transverse quasistatic electric field at TV/m level can be generated in the pinhole. The transverse electric field suppresses the transverse expansion of protons effectively, resulting in a higher density and more collimated proton beam compared with a single foil target. The dependence of the proton beam divergence on the parameters of the pinhole is also investigated. [ABSTRACT FROM AUTHOR]

Published

2014

19. Design of a compact spectrometer for high-flux MeV gamma-ray beams.

Author

Corvan, D. J., Sarri, G., and Zepf, M.

Subjects

GAMMA ray spectrometer, GAMMA ray spectrometry, GAMMA ray bursts, ELECTRONS, GAMMA-ray scattering, MONTE Carlo method

Abstract

A novel design for a compact gamma-ray spectrometer is presented. The proposed system allows for spectroscopy of high-flux multi-MeV gamma-ray beams with MeV energy resolution in a compact design. In its basic configuration, the spectrometer exploits conversion of gamma-rays into electrons via Compton scattering in a low-Z material. The scattered electron population is then spectrally resolved using a magnetic spectrometer. The detector is shown to be effective for gamma-ray energies between 3 and 20 MeV. The main properties of the spectrometer are confirmed by Monte Carlo simulations. [ABSTRACT FROM AUTHOR]

Published

2014

20. Measurements of high-energy radiation generation from laser-wakefield accelerated electron beams.

Author

Schumaker, W., Sarri, G., Vargas, M., Zhao, Z., Behm, K., Chvykov, V., Dromey, B., Hou, B., Maksimchuk, A., Nees, J., Yanovsky, V., Zepf, M., Thomas, A. G. R., and Krushelnick, K.

Subjects

LASER plasma accelerators, BREMSSTRAHLUNG, NUCLEAR reactions, RADIATION, COMPTON scattering, GAMMA ray spectrometer

Abstract

Using high-energy (~0.5 GeV) electron beams generated by laser wakefield acceleration (LWFA), bremsstrahlung radiation was created by interacting these beams with various solid targets. Secondary processes generate high-energy electrons, positrons, and neutrons, which can be measured shot-to-shot using magnetic spectrometers, short half-life activation, and Compton scattering. Presented here are proof-of-principle results from a high-resolution, high-energy gamma-ray spectrometer capable of single-shot operation, and high repetition rate activation diagnostics. We describe the techniques used in these measurements and their potential applications in diagnosing LWFA electron beams and measuring high-energy radiation from laserplasma interactions. [ABSTRACT FROM AUTHOR]

Published

2014

21. Modified Thomson spectrometer design for high energy, multi-species ion sources.

Author

Gwynne, D., Kar, S., Doria, D., Ahmed, H., Cerchez, M., Fernandez, J., Gray, R. J., Green, J. S., Hanton, F., MacLellan, D. A., McKenna, P., Najmudin, Z., Neely, D., Ruiz, J. A., Schiavi, A., Streeter, M., Swantusch, M., Willi, O., Zepf, M., and Borghesi, M.

Subjects

NUCLEAR particle research, SPECTROMETERS, ION beams, DETECTORS, BANDWIDTH research, DEFLECTION (Light)

Abstract

A modification to the standard Thomson parabola spectrometer is discussed, which is designed to measure high energy (tens of MeV/nucleon), broad bandwidth spectra of multi-species ions accelerated by intense laser plasma interactions. It is proposed to implement a pair of extended, trapezoidal shaped electric plates, which will not only resolve ion traces at high energies, but will also retain the lower energy part of the spectrum. While a longer (along the axis of the undeflected ion beam direction) electric plate design provides effective charge state separation at the high energy end of the spectrum, the proposed new trapezoidal shape will enable the low energy ions to reach the detector, which would have been clipped or blocked by simply extending the rectangular plates to enhance the electrostatic deflection. [ABSTRACT FROM AUTHOR]

Published

2014

22. Enhancement of ion generation in femtosecond ultraintense laser-foil interactions by defocusing.

Author

Xu, M. H., Li, Y. T., Carroll, D. C., Foster, P. S., Hawkes, S., Kar, S., Liu, F., Markey, K., McKenna, P., Streeter, M. J. V., Spindloe, C., Sheng, Z. M., Wahlström, C.-G., Zepf, M., Zheng, J., Zhang, J., and Neely, D.

Subjects

FEMTOSECOND lasers research, PROTON beams, ULTRASHORT laser pulses, PROTONS, IONS

Abstract

A simple method to enhance ion generation with femtosecond ultraintense lasers is demonstrated experimentally by defocusing laser beams on target surface. When the laser is optimally defocused, we find that the population of medium and low energy protons from ultra-thin foils is increased significantly while the proton cutoff energy is almost unchanged. In this way, the total proton yield can be enhanced by more than 1 order, even though the peak laser intensity drops. The depression of the amplified spontaneous emission (ASE) effect and the population increase of moderate-energy electrons are believed to be the main reasons for the effective enhancement. [ABSTRACT FROM AUTHOR]

Published

2012

23. Conditions for efficient and stable ion acceleration by moderate circularly polarized laser pulses at intensities of 1020 W/cm2.

Author

Qiao, B., Zepf, M., Gibbon, P., Borghesi, M., Dromey, B., Kar, S., Schreiber, J., and Geissler, M.

Subjects

*PARTICLE acceleration, *POLARIZATION (Electricity), *ULTRASHORT laser pulses, *RADIATION pressure, *ION accelerators, *NUMERICAL analysis, *ELECTROSTATICS

Abstract

Conditions for efficient and stable ion radiation pressure acceleration (RPA) from thin foils by circularly polarized laser pulses at moderate intensities are theoretically and numerically investigated. It is found that the unavoidable decompression of the co-moving electron layer in Light-Sail RPA leads to a change of the local electrostatic field from a 'bunching' to a 'debunching' profile, ultimately resulting in premature termination of ion acceleration. One way to overcome this instability is the use of a multispecies foil where the high-Z ions act as a sacrificial species to supply excess co-moving electrons for preserving stable acceleration of the lower-Z ion species. It is shown by 2D particle-in-cell simulations that 100 MeV/u monoenergetic C6+ ion beams are produced by irradiation of a Cu-C-mixed foil with laser pulses at intensities 5 × 1020 W/cm2, which can be easily achieved by current day lasers. [ABSTRACT FROM AUTHOR]

Published

2011

24. Optimizing harmonics from solid targets.

Author

Zepf, M., Pretzler, G., Andiel, U., Chambers, D. M., Dangor, A. E., Norreys, P. A., Wark, J. S., Watts, I., and Tsakiris, G. D.

Published

1998

25. Recent progress in coherent XUV generation at RAL.

Author

Zepf, M., Zhang, J., Chambers, D., Dangor, A. E., MacPhee, A. G., Lin, J., Wolfrum, E., Nilsen, J., Barbee, T. W., Danson, C., Key, M. H., Lewis, C. L. S., Neely, D., Norreys, P. A., Preston, S. G., O'Rourke, R. M. N., Pert, G. J., Smith, R., Tallents, G. J., and Watts, I. F.

Published

1998

26. A multi-channel soft X-ray flat-field spectrometer.

Author

Neely, D., Chambers, D., Danson, C., Norreys, P., Preston, S., Quinn, F., Roper, M., Wark, J., and Zepf, M.

Published

1998

27. Generation of coherent XUV radiation with sub-picosecond KrF lasers.

Author

Offenberger, A. A., Preston, S. G., Zepf, M., Smith, C. G., Blyth, W. J., Key, M. H., Wark, J. S., Djaoui, A., and Neely, D.

Published

1996

28. Generation and optimization of electron currents along the walls of a conical target for fast ignition.

Author

Micheau, S., Debayle, A., d'Humières, E., Honrubia, J. J., Qiao, B., Zepf, M., Borghesi, M., and Geissler, M.

Subjects

ELECTRON beams, SIMULATION methods & models, ELECTRON distribution, PARTICLES (Nuclear physics), LASER-plasma interactions, NUMERICAL analysis, INERTIAL confinement fusion, LASER beams

Abstract

The interaction of an ultraintense laser pulse with a conical target is studied by means of numerical particle-in-cell simulations in the context of fast ignition. The divergence of the fast electron beam generated at the tip of the cone has been shown to be a crucial parameter for the efficient coupling of the ignition laser pulse to the precompressed fusion pellet. In this paper, we demonstrate that a focused hot electron beam is produced at the cone tip, provided that electron currents flowing along the surfaces of the cone sidewalls are efficiently generated. The influence of various interaction parameters over the formation of these wall currents is investigated. It is found that the strength of the electron flows is enhanced for high laser intensities, low density targets, and steep density gradients inside the cone. The hot electron energy distribution obeys a power law for energies of up to a few MeV, with the addition of a high-energy Maxwellian tail. [ABSTRACT FROM AUTHOR]

Published

2010

29. Complementary ion and extreme ultra-violet spectrometer for laser-plasma diagnosis.

Author

Ter-Avetisyan, S., Ramakrishna, B., Doria, D., Sarri, G., Zepf, M., Borghesi, M., Ehrentraut, L., Stiel, H., Steinke, S., Priebe, G., Schnürer, M., Nickles, P. V., and Sandner, W.

Subjects

EXTREME ultraviolet lithography, ULTRAVIOLET spectra, SECONDARY ion emission, MICROREACTORS, LASER plasmas, PROTONS, QUALITATIVE research

Abstract

Simultaneous detection of extreme ultra-violet (XUV) and ion emission along the same line of sight provides comprehensive insight into the evolution of plasmas. This type of combined spectroscopy is applied to diagnose laser interaction with a spray target. The use of a micro-channel-plate detector assures reliable detection of both XUV and ion signals in a single laser shot. The qualitative analysis of the ion emission and XUV spectra allows to gain detailed information about the plasma conditions, and a correlation between the energetic proton emission and the XUV plasma emission can be suggested. The measured XUV emission spectrum from water spray shows efficient deceleration of laser accelerated electrons with energies up to keV in the initially cold background plasma and the collisional heating of the plasma. [ABSTRACT FROM AUTHOR]

Published

2009

30. Measurements of fast electron scaling generated by petawatt laser systems.

Author

Tanimoto, Tsuyoshi, Habara, H., Kodama, R., Nakatsutsumi, M., Tanaka, Kazuo A., Lancaster, K. L., Green, J. S., Scott, R. H. H., Sherlock, M., Norreys, Peter A., Evans, R. G., Haines, M. G., Kar, S., Zepf, M., King, J., Ma, T., Wei, M. S., Yabuuchi, T., Beg, F. N., and Key, M. H.

Subjects

PLASMA gases, PLASMA waves, LASER beams, ELECTROMAGNETIC fields, PLASMA dynamics

Abstract

Fast electron energy spectra have been measured for a range of intensities between 1018 and 1021 W cm-2 and for different target materials using electron spectrometers. Several experimental campaigns were conducted on petawatt laser facilities at the Rutherford Appleton Laboratory and Osaka University, where the pulse duration was varied from 0.5 to 5 ps relevant to upcoming fast ignition integral experiments. The incident angle was also changed from normal incidence to 40° in p-polarized. The results confirm a reduction from the ponderomotive potential energy on fast electrons at the higher intensities under the wide range of different irradiation conditions. [ABSTRACT FROM AUTHOR]

Published

2009

31. Temporally and spatially resolved measurements of multi-megagauss magnetic fields in high intensity laser-produced plasmas.

Author

Gopal, A., Tatarakis, M., Beg, F. N., Clark, E. L., Dangor, A. E., Evans, R. G., Norreys, P. A., Wei, M. S., Zepf, M., and Krushelnick, K.

Subjects

LASER plasmas, LASER beams, MAGNETIC fields, MAGNETICS, PLASMA gases, FLUID dynamics, POTENTIAL theory (Mathematics)

Abstract

We report spatially and temporally resolved measurements of self-generated multi-megagauss magnetic fields produced during ultrahigh intensity laser plasma interactions. Spatially resolved measurements of the magnetic fields show an asymmetry in the distribution of field with respect to the angle of laser incidence. Temporally resolved measurements of the self-generated third harmonic suggest that the strength of the magnetic field is proportional to the square root of laser intensity (i.e., the laser B-field) during the rise of the laser pulse. The experimental results are compared with numerical simulations using a particle-in-cell code which also shows clear asymmetry of the field profile and similar magnetic field growth rates and scalings. [ABSTRACT FROM AUTHOR]

Published

2008

32. Reduction of proton acceleration in high-intensity laser interaction with solid two-layer targets.

Author

Wei, M. S., Davies, J. R., Clark, E. L., Beg, F. N., Gopal, A., Tatarakis, M., Willingale, L., Nilson, P., Dangor, A. E., Norreys, P. A., Zepf, M., and Krushelnick, K.

Subjects

PROTONS, ACCELERATION (Mechanics), ALUMINUM, LASERS, PARTICLES (Nuclear physics), ULTRASHORT laser pulses, MAGNETIC fields

Abstract

Reduction of proton acceleration in the interaction of a high-intensity, picosecond laser with a 50-μm aluminum target was observed when 0.1–6 μm of plastic was deposited on the back surface (opposite side of the laser). The maximum energy and number of energetic protons observed at the back of the target were greatly reduced in comparison to pure aluminum and plastic targets of the same thickness. This is attributed to the effect of the interface between the layers. Modeling of the electron propagation in the targets using a hybrid code showed strong magnetic-field generation at the interface and rapid surface heating of the aluminum layer, which may account for the results. [ABSTRACT FROM AUTHOR]

Published

2006

33. Tree-code simulations of proton acceleration from laser-irradiated wire targets.

Author

Gibbon, P., Beg, F. N., Clark, E. L., Evans, R. G., and Zepf, M.

Subjects

LASERS, PLASMA gases, ION accelerators, PARTICLE accelerators, SIMULATION methods & models, PROTON accelerators, PHYSICS

Abstract

Recent experiments using Terawatt lasers to accelerate protons deposited on thin wire targets are modeled with a new type of gridless plasma simulation code. In contrast to conventional mesh-based methods, this technique offers a unique capability in emulating the complex geometry and open-ended boundary conditions characteristic of contemporary experimental conditions. Comparisons of ion acceleration are made between the tree code and standard particle-in-cell simulations for a typical collisionless “hole boring” scenario in slab geometry. The utility of the gridless approach is emphasized by a series of simulations in “wire” geometry, in which electrons are permitted to circulate around the target at arbitrary distances from the focal region. The simulations reveal a number of features in common with recent experimental observations, including a disclike emission pattern of the MeV protons accelerated away from the wire. © 2004 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2004

34. Characterization of 7Li(p,n)7Be neutron yields from laser produced ion beams for fast neutron radiography.

Author

Lancaster, K.L., Karsch, S., Habara, H., Beg, F.N., Clark, E.L., Freeman, R., Key, M.H., King, J.A., Kodama, R., Krushelnick, K., Ledingham, K.W.D., McKenna, P., Murphy, C.D., Norreys, P.A., Stephens, R., Stöeckl, C., Toyama, Y., Wei, M.S., and Zepf, M.

Subjects

NEUTRONS, ION bombardment, NEUTRON radiography, THERMAL neutrons, INDUSTRIAL radiography, PHYSICS

Abstract

Investigations of 7Li(p,n)7Be reactions using Cu and CH primary and LiF secondary targets were performed using the VULCAN laser [C.N. Danson et al., J. Mod. Opt. 45, 1653 (1997)] with intensities up to 3×1019 W cm-2. The neutron yield was measured using CR-39 plastic track detector and the yield was up to 3×108 sr-1 for CH primary targets and up to 2×108 sr-1 for Cu primary targets. The angular distribution of neutrons was measured at various angles and revealed a relatively anisotropic neutron distribution over 180° that was greater than the error of measurement. It may be possible to exploit such reactions on high repetition, table-top lasers for neutron radiography. © 2004 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2004

35. Integrated implosion/heating studies for advanced fast ignition.

Author

Norreys, P. A., Lancaster, K. L., Murphy, C. D., Habara, H., Karsch, S., Clarke, R. J., Collier, J., Heathcote, R., Hemandez-Gomez, C., Hawkes, S., Neely, D., Hutchinson, M. H. R., Evans, R. G., Borghesi, M., Romagnani, L., Zepf, M., Akli, K., King, J. A., Zhang, B., and Freeman, R. R.

Subjects

HEATING, PLASMA gases, LASERS, LABORATORIES, RADIOGRAPHY, ELECTRON beams

Abstract

Integrated experiments to investigate the ultrafast heating of implosions using cone/shell geometries have been performed at the Rutherford Appleton Laboratory. The experiments used the 1054 nm, nanosecond, 0.9 kJ output of the VULCAN Nd:glass laser to drive 486 μm diameter, 6 μm wall thickness Cu-doped deuterated plastic (CD) shells in 6-beam cubic symmetry. Measurements of the opacity of the compressed plasma using two-dimensional spatially resolved Ti-Kα x-ray radiography suggest that densities of 4 g cm³ and areal densities of 40 mg cm² were achieved at stagnation. Upper limits on the heating with both 1 ps and 10 ps pulses were deduced from the fluorescent yield from the Cu dopant. The data suggest that control of the preformed plasma scale-length inside the cone is necessary for efficient coupling to the compressed plasma. [ABSTRACT FROM AUTHOR]

Published

2004

36. Return current and proton emission from short pulse laser interactions with wire targets.

Author

Beg, F N., Wei, M. S., Clark, E. L., Dangor, A. E., Evans, R. G., Gibbon, P., Gopal, A., Lancaster, K. L., Ledingham, K. W. D., McKenna, P., Norreys, P. A., Tatarakis, K., Zepf, M., and Krushelnick, K.

Subjects

LASER-plasma interactions, ELECTRON emission, PLASMA gases, ELECTRON beams, LASERS, RADIATION

Abstract

Results are presented from laser-plasma interaction experiments using the VULCAN laser at the Rutherford Appleton Laboratory. Wire targets were used to elucidate the role of the return currents generated by the relativistic electron beam leaving the target at laser intensities up to 5×1019W cm². For some shots an additional wire or a foil was placed near the target wire. In other shots, a foil was used as the target with a wire behind. Three main observations were made: (i) Z-pinch behavior in the wires due to the return currents, (ii) optical transition radiation (OTR) at the second harmonic of the laser, and (iii) proton emission. The OTR and the proton emission were observed from both the primary wire target and the adjacent wire. The OTR emission is associated with electron bunches at twice the laser frequency due to ponderomotive J×B acceleration by the laser. The proton emission from the adjacent target was likely due to field emission of electrons by the large potential produced from charging of the primary wire target. The observations agree with simulations using the three-dimensional tree code PEPC and the two-and-one-half-dimensional particle-in-cell code OSIRIS. [ABSTRACT FROM AUTHOR]

Published

2004

37. The plasma mirror—A subpicosecond optical switch for ultrahigh power lasers.

Author

Dromey, B., Kar, S., Zepf, M., and Foster, P.

Subjects

LASER mirrors, LASER beams, REFLECTANCE, PLASMA gases, SCIENTIFIC apparatus & instruments, RESEARCH equipment

Abstract

Plasma mirrors are devices capable of switching very high laser powers on subpicosecond time scales with a dynamic range of 20–30 dB. A detailed study of their performance in the near-field of the laser beam is presented, a setup relevant to improving the pulse contrast of modern ultrahigh power lasers (TW–PW). The conditions under which high reflectivity can be achieved and focusability of the reflected beam retained are identified. At higher intensities a region of high specular reflectivity with rapidly decreasing focusability was observed, suggesting that specular reflectivity alone is not an adequate guide to the ideal range of plasma mirror operation. It was found that to achieve high reflectivity with negligible phasefront distortion of the reflected beam the inequality c[sub s]Δt<λ[sub Laser] must be met (c[sub s]: sound speed, Δt: time from plasma formation to the peak of the pulse). The achievable contrast enhancement is given by the ratio of plasma mirror reflectivity to cold reflectivity. © 2004 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2004

38. A nearly real-time high temperature laser–plasma diagnostic using photonuclear reactions in tantalum.

Author

Spencer, I., Ledingham, K. W. D., Singhal, R. P., McCanny, T., McKenna, P., Clark, E. L., Krushelnick, K., Zepf, M., Beg, F. N., Tatarakis, M., Dangor, A. E., Edwards, R. D., Sinclair, M. A., Norreys, P. A., Clarke, R. J., and Allott, R. M.

Subjects

LASER-plasma interactions, PHOTONUCLEAR reactions, HIGH temperature plasmas, TANTALUM

Abstract

A method of measuring the temperature of the fast electrons produced in ultraintense laser-plasma interactions is described by inducing photonuclear reactions, in particular (γ,n) and (γ,3n) reactions in tantalum. Analysis of the γ rays emitted by the daughter nuclei of these reactions using a germanium counter enables a relatively straightforward near real-time temperature measurement to be made. This is especially important for high temperature plasmas where alternative diagnostic techniques are usually difficult and time consuming. This technique can be used while other experiments are being conducted. [ABSTRACT FROM AUTHOR]

Published

2002

39. Measurements of ultrastrong magnetic fields during relativistic laser–plasma interactions.

Author

Tatarakis, M., Gopal, A., Watts, I., Beg, F. N., Dangor, A. E., Krushelnick, K., Wagner, U., Norreys, P. A., Clark, E. L., Zepf, M., and Evans, R. G.

Subjects

MAGNETIC fields, LASER plasmas

Abstract

Measurements of magnetic fields generated during ultrahigh intensity (>10[sup 19] W cm[sup -2]), short pulse (0.7–1 ps) laser–solid target interaction experiments are reported. An innovative method is used and the results are compared with particle-in-cell simulations. It is shown that polarization measurements of the self-generated harmonics of the laser can provide a convenient method for diagnosing the magnetic field—and that the experimental measurements indicate the existence of peak fields greater than 340 MG and below 460 MG at such high intensities. In particular, the observation of the X-wave cutoffs and the observed induced ellipticity of the harmonics can provide a reliable method for measuring these fields. These observations are important for evaluating the use of intense lasers in various potential applications and perhaps for understanding the complex physics of exotic astrophysical objects such as neutron stars. © 2002 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2002

40. Fast particle generation and energy transport in laser-solid interactions.

Author

Zepf, M., Clark, E. L., Krushelnick, K., Beg, F. N., Escoda, C., Dangor, A. E., Santala, M. I. K., Tatarakis, M., Watts, I. F., Norreys, P. A., Clarke, R. J., Davies, J. R., Sinclair, M. A., Edwards, R. D., Goldsack, T. J., Spencer, I., and Ledingham, K. W. D.

Subjects

*HIGH power lasers, *ELECTRONS, *ION bombardment

Abstract

The generation of MeV electron and ion beams using lasers with intensities of up to 10[sub 20]W cm[sup -2] is reported. Intense ion beams with high energies (up to 40 MeV and to 3 × 10[sup 12] protons >5 MeV) are observed. The properties of these particle beams were measured in considerable detail and the results are compared to current theoretical explanations for their generation. [ABSTRACT FROM AUTHOR]

Published

2001

41. Energetic proton production from relativistic laser interaction with high density plasmas.

Author

Krushelnick, K., Clark, E. L., Zepf, M., Davies, J. R., Beg, F. N., Machacek, A., Santala, M. I. K., Tatarakis, M., Watts, I., Norreys, P. A., and Dangor, A. E.

Subjects

IONS, LASERS

Abstract

Describes the detection of energetic ions produced during intense laser interactions. Measurement of angular deflection of energetic protons; Details of nuclear activation and track detector measurements; Impact of developments in laser technology on experimentalists.

Published

2000

42. First results on cell irradiation with laser-driven protons on the TARANIS system.

Author

Kar, S., Doria, D., Kakolee, K. F., Prasad, R., Litt, S., Ahmed, H., Nersisyan, G., Lewis, C., Zepf, M., Borghesi, M., Schettino, G., Prise, K. M., Fiorini, F., Kirby, D., Green, S., Jeynes, J. C. G., Merchant, M. J., and Kirkby, K. J.

Subjects

IRRADIATION, LASERS, PROTONS, DRUG dosage, RADIOBIOLOGY, RELATIVE biological effectiveness (Radiobiology), X-rays

Abstract

The ultra short duration of laser-driven multi-MeV ion bursts offers the possibility of radiobiological studies at extremely high dose rates. Employing the TARANIS Terawatt laser at Queen's University, the effect of proton irradiation at MeV-range energies on live cells has been investigated at dose rates exceeding 109 Gy/s as a single exposure. A clonogenic assay showed consistent lethal effects on V-79 live, cells, which, even at these dose rates, appear to be in line with previously published results employing conventional sources. A Relative Biological Effectiveness (RBE) of 1.4±0.2 at 10% survival is estimated from a comparison with a 225 kVp X-ray source. [ABSTRACT FROM AUTHOR]

Published

2013

43. Observation of a highly directional γ-ray beam from ultrashort, ultraintense laser pulse interactions with solids.

Author

Norreys, P. A., Santala, M., Clark, E., Zepf, M., Watts, I., Beg, F. N., Krushelnick, K., Tatarakis, M., Dangor, A. E., Fang, X., Graham, P., McCanny, T., Singhal, R. P., Ledingham, K. W. D., Creswell, A., Sanderson, D. C. W., Magill, J., Machacek, A., Wark, J. S., and Allott, R.

Subjects

GAMMA rays, ELECTROMAGNETIC waves, GAMMA ray sources, LASERS, RADIATION, BREMSSTRAHLUNG

Abstract

Novel measurements of electromagnetic radiation above 10 MeV are presented for ultra intense laser pulse interactions with solids. A bright, highly directional source of γ rays was observed directly behind the target. The γ rays were produced by bremsstrahlung radiation from energetic electrons generated during the interaction. They were measured using the photoneutron reaction [63Cu( γ,n)62Cu] in copper. The resulting activity was measured by coincidence counting the positron annihilation γ rays which were produced from the decay of 62Cu. New measurements of the bremsstrahlung radiation at 1019Wcm-2 are also presented. [ABSTRACT FROM AUTHOR]

Published

1999

44. Fast ion acceleration from thin foils irradiated by ultra-high intensity, ultra-high contrast laser pulses.

Author

Prasad, R., Andreev, A. A., Ter-Avetisyan, S., Doria, D., Quinn, K. E., Romagnani, L., Brenner, C. M., Carroll, D. C., Dover, N. P., Neely, D., Foster, P. S., Gallegos, P., Green, J. S., McKenna, P., Najmudin, Z., Palmer, C. A. J., Schreiber, J., Streeter, M. J. V., Tresca, O., and Zepf, M.

Subjects

ULTRASHORT laser pulses, ION accelerators, LASER beams, ION bombardment, ENERGY conversion

Abstract

Ion acceleration resulting from the interaction of ultra-high intensity (2 × 1020 W/cm2) and ultra-high contrast (∼1010) laser pulses with 0.05-10 μm thick Al foils at normal (0°) and 35° laser incidence is investigated. When decreasing the target thickness from 10 μm down to 0.05 μm, the accelerated ions become less divergent and the ion flux increases, particularly at normal (0°) laser incidence on the target. A laser energy conversion into protons of ∼6.5% is estimated at 35° laser incidence. Experimental results are in reasonable agreement with theoretical estimates and can be a benchmark for further theoretical and computational work. [ABSTRACT FROM AUTHOR]

Published

2011

45. MeV negative ion generation from ultra-intense laser interaction with a water spray.

Author

Ter-Avetisyan, S., Ramakrishna, B., Borghesi, M., Doria, D., Zepf, M., Sarri, G., Ehrentraut, L., Andreev, A., Nickles, P. V., Steinke, S., Sandner, W., Schnürer, M., and Tikhonchuk, V.

Subjects

ANIONS, ULTRASHORT laser pulses, SPRAYING, ELECTRON capture, CATIONS, PHYSICS research

Abstract

MeV negative oxygen ions are obtained from a water spray target irradiated by high intensity (5 × 1019 W/cm2) and ultrashort (50 fs) laser pulses. Generation of negative ions is ascribed to electron-capture processes that the laser-accelerated high-energy positive ion experiences when it interacts with atoms in the spray. This mechanism implies the existence of a large number of MeV neutral oxygen atoms, which is consistent with indirect experimental evidence. [ABSTRACT FROM AUTHOR]

Published

2011

46. Detection of short lived radioisotopes as a fast diagnostic for intense laser-solid interactions.

Author

Clarke, R. J., Ledingham, K. W. D., McKenna, P., Robson, L., McCanny, T., Neely, D., Lundh, O., Lindau, F., Wahlström, C.-G., Simpson, P. T., and Zepf, M.

Subjects

RADIOISOTOPES, RADIOACTIVE substances, RELATIVITY, PARTICLES (Nuclear physics), LASERS, PNEUMATICS, VACUUM

Abstract

As a diagnostic of high-intensity laser interactions (>1019 W cm-2), the detection of radioactive isotopes is regularly used for the characterization of proton, neutron, ion, and photon beams. This involves sample removal from the interaction chamber and time consuming post shot analysis using NaI coincidence counting or Ge detectors. This letter describes the use of in situ detectors to measure laser-driven (p,n) reactions in 27Al as an almost real-time diagnostic for proton acceleration. The produced 27Si isotope decays with a 4.16 s half-life by the predominantly β+ emission, producing a strong 511 keV annihilation peak. [ABSTRACT FROM AUTHOR]

Published

2006

47. Characterization of a picosecond laser generated 4.5 keV Ti K-alpha source for pulsed radiography.

Author

King, J. A., Akli, K., Snavely, R. A., Zhang, B., Key, M. H., Chen, C. D., Chen, M., Hatchett, S. P., Koch, J. A., MacKinnon, A. J., Patel, P. K., Phillips, T., Town, R. P. J., Freeman, R. R., Borghesi, M., Romagnani, L., Zepf, M., Cowan, T., Stephens, R., and Lancaster, K. L.

Subjects

PICOSECOND pulses, ULTRASHORT laser pulses, LASER beams, PULSE generators, SPECTROMETERS, MONTE Carlo method

Abstract

Kα radiation generated by interaction of an ultrashort (1 ps) laser with thin (25 μm) Ti foils at high intensity (2×1016 W/cm2) is analyzed using data from a spherical Bragg crystal imager and a single hit charge-coupled device spectrometer together with Monte Carlo simulations of Kα brightness. Laser to Kα and electron conversion efficiencies have been determined. We have also measured an effective crystal reflectivity of 3.75±2%. Comparison of imager data with data from the relatively broadband single hit spectrometer has revealed a reduction in crystal collection efficiency for high Kα yield. This is attributed to a shift in the K-shell spectrum due to Ti ionization. [ABSTRACT FROM AUTHOR]

Published

2005

48. Target charging effects on proton acceleration during high-intensity short-pulse laser-solid interactions.

Author

Beg, F. N., Wei, M. S., Dangor, A. E., Gopal, A., Tatarakis, M., Krushelnick, K., Gibbon, P., Clark, E. L., Evans, R. G., Lancaster, K. L., Norreys, P. A., Ledingham, K. W. D., McKenna, P., and Zepf, M.

Subjects

PROTON scattering, WIRE, PROTON accelerators, LASERS, ULTRASHORT laser pulses, PROTONS, PROTON polarization

Abstract

We report results from experiments performed at the Rutherford Appleton Laboratory using the VULCAN laser facility (I>5×1019 W cm-2). Single wire targets were used, and on some shots additional objects were placed near the target. These were positioned so that they were not irradiated by the laser. Proton emission from single wire targets was observed as radially symmetric structures (“stripes”) in both the forward and backward directions, and was due to plasma sheath acceleration around the wire. The presence of objects in the vicinity of the interaction had a significant effect on the angular emission pattern of protons from the primary target. Importantly, the secondary object was also observed to be a source of energetic proton emission. © 2004 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2004

49. Characterization of a gamma-ray source based on a laser-plasma accelerator with applications to radiography.

Author

Edwards, R. D., Sinclair, M. A., Goldsack, T. J., Krushelnick, K., Beg, F. N., Clark, E. L., Dangor, A. E., Najmudin, Z., Tatarakis, M., Walton, B., Zepf, M., Ledingham, K. W. D., Spencer, I., Norreys, P. A., Clarke, R. J., Kodama, R., Toyama, Y., and Tampo, M.

Subjects

GAMMA rays, PICOSECOND pulses, RADIOGRAPHY

Abstract

The application of high intensity laser-produced gamma rays is discussed with regard to picosecond resolution deep-penetration radiography. The spectrum and angular distribution of these gamma rays is measured using an array of thermoluminescent detectors for both an underdense (gas) target and an overdense (solid) target. It is found that the use of an underdense target in a laser plasma accelerator configuration produces a much more intense and directional source. The peak dose is also increased significantly. Radiography is demonstrated in these experiments and the source size is also estimated. [ABSTRACT FROM AUTHOR]

Published

2002

50. Production of radioactive nuclides by energetic protons generated from intense laser-plasma interactions.

Author

Santala, M. I. K., Zepf, M., Beg, F. N., Clark, E. L., Dangor, A. E., Krushelnick, K., Tatarakis, M., Watts, I., Ledingham, K. W. D., McCanny, T., Spencer, I., Machacek, A. C., Allott, R., Clarke, R. J., and Norreys, P. A.

Subjects

*NUCLEAR activation analysis, *RADIOISOTOPES, *LASER ablation, *LASER-plasma interactions

Abstract

Nuclear activation has been observed in materials exposed to the ablated plasma generated from high intensity laser-solid interactions (at focused intensities up to 2x10[sup 19] W/cm[sup 2]) and is produced by protons having energies up to 30 MeV. The energy spectrum of the protons is determined from these activation measurements and is found to be consistent with other ion diagnostics. The possible development of this technique for "table-top" production of radionuclides for medical applications is also discussed. [ABSTRACT FROM AUTHOR]

Published

2001