8th International Conference on Inertial Fusion Sciences and Applications | |
A bright neutron source driven by relativistic transparency of solids | |
Roth, M.^1,2 ; Jung, D.^2 ; Falk, K.^2 ; Guler, N.^2 ; Deppert, O.^1 ; Devlin, M.^2 ; Favalli, A.^2 ; Fernandez, J.^2 ; Gautier, D.C.^2 ; Geissel, M.^3 ; Haight, R.^2 ; Hamilton, C.E.^2 ; Hegelich, B.M.^4 ; Johnson, R.P.^2 ; Kleinschmidt, A.^1 ; Merrill, F.^2 ; Schaumann, G.^1 ; Schoenberg, K.^2 ; Schollmeier, M.^3 ; Shimada, T.^2 ; Taddeucci, T.^2 ; Tybo, J.L.^2 ; Wagner, F.^1 ; Wender, S.A.^2 ; Wilde, C.H.^2 ; Wurden, G.A.^2 | |
Technische Universität Darmstadt, Darmstadt | |
D-64289, Germany^1 | |
Los Alamos National Laboratory, Los Alamos | |
NM | |
87545, United States^2 | |
Sandia National Laboratories, Albuquerque | |
NM | |
87185, United States^3 | |
University of Texas, Austin | |
TX | |
78712-1068, United States^4 | |
关键词: Academic community; Acceleration mechanisms; High energy density physics; Laser neutron production; Pulsed neutron sources; Scientific community; Short-pulse lasers; Spallation sources; | |
Others : https://iopscience.iop.org/article/10.1088/1742-6596/688/1/012094/pdf DOI : 10.1088/1742-6596/688/1/012094 |
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来源: IOP | |
【 摘 要 】
Neutrons are a unique tool to alter and diagnose material properties and excite nuclear reactions with a large field of applications. It has been stated over the last years, that there is a growing need for intense, pulsed neutron sources, either fast or moderated neutrons for the scientific community. Accelerator based spallation sources provide unprecedented neutron fluxes, but could be complemented by novel sources with higher peak brightness that are more compact. Lasers offer the prospect of generating a very compact neutron source of high peak brightness that could be linked to other facilities more easily. We present experimental results on the first short pulse laser driven neutron source powerful enough for applications in radiography. For the first time an acceleration mechanism (BOA) based on the concept of relativistic transparency has been used to generate neutrons. This mechanism not only provides much higher particle energies, but also accelerated the entire target volume, thereby circumventing the need for complicated target treatment and no longer limited to protons as an intense ion source. As a consequence we have demonstrated a new record in laser-neutron production, not only in numbers, but also in energy and directionality based on an intense deuteron beam. The beam contained, for the first time, neutrons with energies in excess of 100 MeV and showed pronounced directionality, which makes then extremely useful for a variety of applications. The results also address a larger community as it paves the way to use short pulse lasers as a neutron source. They can open up neutron research to a broad academic community including material science, biology, medicine and high energy density physics as laser systems become more easily available to universities and therefore can complement large scale facilities like reactors or particle accelerators. We believe that this has the potential to increase the user community for neutron research largely.
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A bright neutron source driven by relativistic transparency of solids | 964KB | download |