Search

Your search keyword '"Ostermayr, T. M."' showing total 14 results
Start Over Author "Ostermayr, T. M."
14 results on '"Ostermayr, T. M."'

1. En-route to the fission-fusion reaction mechanism: a status update on laser-driven heavy ion acceleration

Author

Lindner, F. H., McCary, E., Jiao, X., Ostermayr, T. M., Roycroft, R., Tiwari, G., Hegelich, B. M., Schreiber, J., and Thirolf, P. G.

Subjects
Physics - Plasma Physics
Abstract

The fission-fusion reaction mechanism was proposed in order to generate extremely neutron-rich nuclei close to the waiting point N = 126 of the rapid neutron capture nucleosynthesis process (r-process). The production of such isotopes and the measurement of their nuclear properties would fundamentally help to increase the understanding of the nucleosynthesis of the heaviest elements in the universe. Major prerequisite for the realization of this new reaction scheme is the development of laser-based acceleration of ultra-dense heavy ion bunches in the mass range of A = 200 and above. In this paper, we review the status of laser-driven heavy ion acceleration in the light of the fission-fusion reaction mechanism. We present results from our latest experiment on heavy ion acceleration, including a new milestone with laser-accelerated heavy ion energies exceeding 5 MeV/u.

Published
2018
Full Text
View/download PDF

2. A novel approach to electron data background treatment in an online wide-angle spectrometer for laser-accelerated ion and electron bunches

Author

Lindner, F. H., Bin, J. H., Englbrecht, F., Haffa, D., Bolton, P. R., Gao, Y., Hartmann, J., Hilz, P., Kreuzer, C., Ostermayr, T. M., Rösch, T. F., Speicher, M., Parodi, K., Thirolf, P. G., and Schreiber, J.

Subjects
Physics - Plasma Physics
Abstract

Laser-based ion acceleration is driven by electrical fields emerging when target electrons absorb laser energy and consecutively leave the target material. A direct correlation between these electrons and the accelerated ions is thus to be expected and predicted by theoretical models. We report on a modified wide-angle spectrometer allowing the simultaneous characterization of angularly resolved energy distributions of both ions and electrons. Equipped with online pixel detectors, the RadEye1 detectors, the investigation of this correlation gets attainable on a single shot basis. In addition to first insights, we present a novel approach for reliably extracting the primary electron energy distribution from the interfering secondary radiation background. This proves vitally important for quantitative extraction of average electron energies (temperatures) and emitted total charge.

Published
2018
Full Text
View/download PDF

7. I-BEAT: Ultrasonic method for online measurement of the energy distribution of a single ion bunch

Author

Haffa, D., Yang, R., Bin, J., Lehrack, S., Brack, F.-E., Ding, H., Englbrecht, F., Gao, Y., Gaus, L., Gebhard, J., Gilljohann, M., Götzfried, J., Hartmann, J., Herr, S., Hilz, P., Kraft, S., Kreuzer, C., Kroll, F., Lindner, F. H., Metzkes-Ng, J., Ostermayr, T. M., Ridente, E., Rösch, T. F., Schilling, G., Schlenvoigt, H.-P., Speicher, M., Taray, D., Würl, M., Zeil, K., Schramm, U., Karsch, S., Parodi, K., Bolton, P., Schreiber, J., and Assmann, W.

Subjects
Physics::Accelerator Physics, ion spectrometer, laser ion acceleration
Abstract

the shape of a wave carries all information about the spatial and temporal structure of its source, given that the medium and its properties are known. Most modern imaging methods seek to utilize this nature of waves originating from Huygens’ principle. We discuss the retrieval of the complete kinetic energy distribution from the acoustic trace that is recorded when a short ion bunch deposits its energy in water. this novel method, which we refer to as Ion-Bunch energy Acoustic tracing (I-BeAt), is a refinement of the ionoacoustic approach. With its capability of completely monitoring a single, focused proton bunch with prompt readout and high repetition rate, I-BeAt is a promising approach to meet future requirements of experiments and applications in the field of laser-based ion acceleration. We demonstrate its functionality at two laser-driven ion sources for quantitative online determination of the kinetic energy distribution in the focus of single proton bunches

Published
2019

9. Isolated proton bunch acceleration by a petawatt laser pulse

Author

Hilz, P., primary, Ostermayr, T. M., additional, Huebl, A., additional, Bagnoud, V., additional, Borm, B., additional, Bussmann, M., additional, Gallei, M., additional, Gebhard, J., additional, Haffa, D., additional, Hartmann, J., additional, Kluge, T., additional, Lindner, F. H., additional, Neumayr, P., additional, Schaefer, C. G., additional, Schramm, U., additional, Thirolf, P. G., additional, Rösch, T .F., additional, Wagner, F., additional, Zielbauer, B., additional, and Schreiber, J., additional

Published
2018
Full Text
View/download PDF

11. A novel approach to electron data background treatment in an online wide-angle spectrometer for laser-accelerated ion and electron bunches

Author

Lindner, F. H., primary, Bin, J. H., additional, Englbrecht, F., additional, Haffa, D., additional, Bolton, P. R., additional, Gao, Y., additional, Hartmann, J., additional, Hilz, P., additional, Kreuzer, C., additional, Ostermayr, T. M., additional, Rösch, T. F., additional, Speicher, M., additional, Parodi, K., additional, Thirolf, P. G., additional, and Schreiber, J., additional

Published
2018
Full Text
View/download PDF

12. Laser-driven ION (LION) acceleration at the centre for advanced laser applications (CALA)

Author

Rosch, T. F., primary, Haffa, D., additional, Bin, J. H., additional, Englbrecht, F., additional, Gao, Y., additional, Gisbert, V., additional, Gebhard, J., additional, Hahner, D., additional, Hartmann, J., additional, Haug, M., additional, Herr, S., additional, Hilz, P., additional, Kreuzer, C., additional, Lehrack, S., additional, Lindner, F. H., additional, Ostermayr, T. M., additional, Ridente, E., additional, Seuferling, S., additional, Speicher, M., additional, Wurl, M., additional, Yang, R., additional, Parodi, K., additional, and Schreiber, J., additional

Published
2017
Full Text
View/download PDF

13. Laser interactions with micro-targets for imaging applications

Author

Ostermayr, T. M., primary, Kreuzer, C., additional, Englbrecht, F., additional, Hartmann, J., additional, Gebhard, J., additional, Speicher, M., additional, Haffa, D., additional, Hilz, P., additional, Bin, J., additional, McCary, E., additional, Stork, S., additional, Dyer, G., additional, Donovan, M. E., additional, Ditmire, T., additional, Hegelich, B. M., additional, Martinez, M., additional, Gaul, E., additional, Wenz, J., additional, Parodi, K., additional, Gordon, J., additional, Spinks, M., additional, Bolton, P. R., additional, and Schreiber, J., additional

Published
2017
Full Text
View/download PDF

14. Proton acceleration by irradiation of isolated spheres with an intense laser pulse

Author

Ostermayr, T. M., primary, Haffa, D., additional, Hilz, P., additional, Pauw, V., additional, Allinger, K., additional, Bamberg, K.-U., additional, Böhl, P., additional, Bömer, C., additional, Bolton, P. R., additional, Deutschmann, F., additional, Ditmire, T., additional, Donovan, M. E., additional, Dyer, G., additional, Gaul, E., additional, Gordon, J., additional, Hegelich, B. M., additional, Kiefer, D., additional, Klier, C., additional, Kreuzer, C., additional, Martinez, M., additional, McCary, E., additional, Meadows, A. R., additional, Moschüring, N., additional, Rösch, T., additional, Ruhl, H., additional, Spinks, M., additional, Wagner, C., additional, and Schreiber, J., additional

Published
2016
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results