Your search keyword '"Niemann, C"' showing total 13 results

1. Transport of laser accelerated proton beams and isochoric heating of matter

Author

Roth, M., Alber, I., Bagnoud, V., Brown, C., Clarke, R., Daido, H., Fernandez, J., Flippo, K., Gaillard, S., Gauthier, C., Glenzer, S., Gregori, G., Günther, M., Harres, K., Heathcote, R., Kritcher, A., Kugland, N., LePape, S., Li, B., Makita, M., Mithen, J., Niemann, C., Nürnberg, F., Offermann, D., Otten, A., Pelka, A., Riley, D., Schaumann, G., Schollmeier, M., Schütrumpf, J., Tampo, M., Tauschwitz, A., Tauschwitz, A. N., Roth, M., Alber, I., Bagnoud, V., Brown, C., Clarke, R., Daido, H., Fernandez, J., Flippo, K., Gaillard, S., Gauthier, C., Glenzer, S., Gregori, G., Günther, M., Harres, K., Heathcote, R., Kritcher, A., Kugland, N., LePape, S., Li, B., Makita, M., Mithen, J., Niemann, C., Nürnberg, F., Offermann, D., Otten, A., Pelka, A., Riley, D., Schaumann, G., Schollmeier, M., Schütrumpf, J., Tampo, M., Tauschwitz, A., and Tauschwitz, A. N.

Abstract

The acceleration of intense proton and ion beams by ultra-intense lasers has matured to a point where applications in basic research and technology are being developed. Crucial for harvesting the unmatched beam parameters driven by the relativistic electron sheath is the precise control of the beam. We report on recent experiments using the PHELIX laser at GSI, the VULCAN laser at RAL and the TRIDENT laser at LANL to control and use laser accelerated proton beams for applications in high energy density research. We demonstrate efficient collimation of the proton beam using high field pulsed solenoid magnets, a prerequisite to capture and transport the beam for applications. Furthermore we report on two campaigns to use intense, short proton bunches to isochorically heat solid targets up to the warm dense matter state. The temporal profile of the proton beam allows for rapid heating of the target, much faster than the hydrodynamic response time thereby creating a strongly coupled plasma at solid density. The target parameters are then probed by X-ray Thomson scattering (XRTS) to reveal the density and temperature of the heated volume. This combination of two powerful techniques developed during the past few years allows for the generation and investigation of macroscopic samples of matter in states present in giant planets or the interior of the earth.

Published

2024

2. Silica Raman scattering probe for absolute calibration of Thomson scattering spectrometers

Author

Ghazaryan, S., primary, Kaloyan, M., additional, and Niemann, C., additional

Published

2021

3. Towards a parallel collisionless shock in LAPD

Author

Weidl, M S, primary, Heuer, P, additional, Schaeffer, D, additional, Dorst, R, additional, Winske, D, additional, Constantin, C, additional, and Niemann, C, additional

Published

2017

4. High-energy Nd:glass laser facility for collisionless laboratory astrophysics

Author

Niemann, C, primary, Constantin, C G, additional, Schaeffer, D B, additional, Tauschwitz, A, additional, Weiland, T, additional, Lucky, Z, additional, Gekelman, W, additional, Everson, E T, additional, and Winske, D, additional

Published

2012

5. Thomson Scattering Measurements of Temperature and Density in a Low-Density, Laser-Driven Magnetized Plasma

Author

Schaeffer, D B, primary, Montgomery, D S, additional, Bondarenko, A S, additional, Morton, L A, additional, Johnson, R P, additional, Shimada, T, additional, Constantin, C G, additional, Everson, E T, additional, Letzring, S A, additional, Gaillard, S A, additional, Flippo, K A, additional, Glenzer, S H, additional, and Niemann, C, additional

Published

2012

6. Stimulated forward Raman scattering in large scale-length laser-produced plasmas

Author

Niemann, C, primary, Berger, R L, additional, Divol, L, additional, Kirkwood, R K, additional, Moody, J D, additional, Sorce, C M, additional, and Glenzer, S H, additional

Published

2011

7. Characterization of a spherically bent quartz crystal for Kα x-ray imaging of laser plasmas using a focusing monochromator geometry

Author

Kugland, N L, primary, Constantin, C G, additional, Döppner, T, additional, Neumayer, P, additional, Glenzer, S H, additional, and Niemann, C, additional

Published

2011

8. Transport of laser accelerated proton beams and isochoric heating of matter

Author

Roth, M, primary, Alber, I, additional, Bagnoud, V, additional, Brown, C, additional, Clarke, R, additional, Daido, H, additional, Fernandez, J, additional, Flippo, K, additional, Gaillard, S, additional, Gauthier, C, additional, Glenzer, S, additional, Gregori, G, additional, Günther, M, additional, Harres, K, additional, Heathcote, R, additional, Kritcher, A, additional, Kugland, N, additional, LePape, S, additional, Li, B, additional, Makita, M, additional, Mithen, J, additional, Niemann, C, additional, Nürnberg, F, additional, Offermann, D, additional, Otten, A, additional, Pelka, A, additional, Riley, D, additional, Schaumann, G, additional, Schollmeier, M, additional, Schütrumpf, J, additional, Tampo, M, additional, Tauschwitz, A, additional, and Tauschwitz, A N, additional

Published

2010

9. Ion velocity distribution measurements in a magnetized laser plasma expansion

Author

Zylstra, A B, primary, Constantin, C, additional, Everson, E T, additional, Schaeffer, D, additional, Kugland, N L, additional, Pribyl, P, additional, and Niemann, C, additional

Published

2010

10. Proton acceleration experiments and warm dense matter research using high power lasers

Author

Roth, M, primary, Alber, I, additional, Bagnoud, V, additional, Brown, C R D, additional, Clarke, R, additional, Daido, H, additional, Fernandez, J, additional, Flippo, K, additional, Gaillard, S, additional, Gauthier, C, additional, Geissel, M, additional, Glenzer, S, additional, Gregori, G, additional, Günther, M, additional, Harres, K, additional, Heathcote, R, additional, Kritcher, A, additional, Kugland, N, additional, LePape, S, additional, Li, B, additional, Makita, M, additional, Mithen, J, additional, Niemann, C, additional, Nürnberg, F, additional, Offermann, D, additional, Otten, A, additional, Pelka, A, additional, Riley, D, additional, Schaumann, G, additional, Schollmeier, M, additional, Schütrumpf, J, additional, Tampo, M, additional, Tauschwitz, A, additional, and Tauschwitz, An, additional

Published

2009

11. First laser–plasma interaction and hohlraum experiments on the National Ignition Facility

Author

Dewald, E L, primary, Glenzer, S H, additional, Landen, O L, additional, Suter, L J, additional, Jones, O S, additional, Schein, J, additional, Froula, D, additional, Divol, L, additional, Campbell, K, additional, Schneider, M S, additional, Holder, J, additional, McDonald, J W, additional, Niemann, C, additional, Mackinnon, A J, additional, and Hammel, B A, additional

Published

2005

12. Spectroscopic density and temperature measurements and modelling of a discharge plasma for neutralized ion-beam transport

Author

Niemann, C, primary, Rosmej, F B, additional, Tauschwitz, A, additional, Neff, S, additional, Penache, D, additional, Birkner, R, additional, Constantin, C, additional, Knobloch, R, additional, Presura, R, additional, Hoffmann, D H H, additional, Yu, S S, additional, and Lee, R W, additional

Published

2003

13. Laboratory Observations of Ultra-Low Frequency Analogue Waves Driven by the Right-Hand Resonant Ion Beam Instability.

Author

Heuer PV, Weidl MS, Dorst RS, Schaeffer DB, Tripathi SKP, Vincena S, Constantin CG, Niemann C, Wilson LB 3rd, and Winske D

Abstract

The Right-Hand Resonant Instability (RHI) is one of several electromagnetic ion/ion beam instabilities responsible for the formation of parallel magnetized collisionless shocks and the generation of ultra-low frequency (ULF) waves in their foreshocks. This instability has been observed for the first time under foreshock-relevant conditions in the laboratory through the repeatable interaction of a preformed magnetized background plasma and a super-Alfvénic laser-produced plasma. This platform has enabled unprecedented volumetric measurements of waves generated by the RHI, revealing filamentary current structures in the transverse plane. These measurements are made in the plasma rest frame with both high spatial and temporal resolution, providing a perspective that is complementary to spacecraft observations. Direct comparison of data from both the experiment and the Wind spacecraft to 2D hybrid simulations demonstrates that the waves produced are analogous to the ULF waves observed upstream of the terrestrial bow shock.

Published

2020