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Laser driven nuclear physics at ELI–NP

Negoiţǎ Florin, Roth Markus, Thirolf, Peter G, Tudisco, Salvo, Hannachi, Fazia, 1958-, Moustaizis Stavros, Pomerantz Ishay, McKenna, Paul, 1963-, Fuchs Julien E., Sphor K., Acbas Gheorghe, Anzalone Antonello, Audebert, Pierre, 1959-, Balascuta Septimiu, Cappuzzello, Francesco, Cernǎianu Mihail Octavian, Chen Sophia N., Dancus Ioan, Freeman Richard R., Geissel Hans, Genuche P., Gizzi, L. A, Gobet, Franck, Gosselin Gilbert, Gugiu Marius Marin, Higginson Drew P., D’Humières, E., Ivan Constantin, Jaroszynski Dino A., Satyabrata Kar, Lamia, Livio, Leca Victor, Neagu Liviu P., Lanzalone, Gaetano, Méot, Vincent, 1960-, Mirfayzi S. R., Mitu Iani Octavian, Morel Pascal, Murphy Christopher D., Petcu Cristian, Petraşcu Horia, Petrone C., Rączka, Piotr, Risca M., Rotaru, Florin, Santos João Jorge, Schumacher Douglas W., Stutman Dan, Tarisien, Mehdi, 1974-, Tataru M., Tatulea B., Turcu Ice Cristian Edmond, Versteegen Maud, Ursescu, Daniel 1976-, Galès Sydney, Zamfir, N.V

Πλήρης Εγγραφή


URI: http://purl.tuc.gr/dl/dias/A3162077-E68F-45DC-912A-6FC9DEF750B9
Έτος 2016
Τύπος Δημοσίευση σε Περιοδικό με Κριτές
Άδεια Χρήσης
Λεπτομέρειες
Βιβλιογραφική Αναφορά F. Negoita, M. Roth, P.G. Thirolf, S. Tudisco, F. Hannachi, S. Moustaizis, I. Pomerantz, P. McKenna, J. Fuchs, K. Sphor, G. Acbas, A. Anzalone, P. Audebert, S. Balascuta, F. Cappuzzello, M. O. Cernaianu, S. Chen, I. Dancus, R. Freeman, H. Geissel, P. Genuche, L. Gizzi, F. Gobet, G. Gosselin, M. Gugiu, D. Higginson, E. D’Humières, C. Ivan, D. Jaroszynski, Kar, S.q, Lamia, L.d,k, Leca, V.a, Neagu, L.a, Lanzalone, G.d,r, Méot, V.o, Mirfayzi, S.R.q, Mitu, I.O.a, Morel, P.o, Murphy, C.s, Petcu, C.a, Petra
Εμφανίζεται στις Συλλογές

Περίληψη

High power lasers have proven being capable to produce high energy γ-rays, charged particles and neutrons, and to induce all kinds of nuclear reactions. At ELI, the studies with high power lasers will enter for the first time into new domains of power and intensities: 10 PW and 1023 W/cm2. While the development of laser based radiation sources is the main focus at the ELI-Beamlines pillar of ELI, at ELI-NP the studies that will benefit from High Power Laser System pulses will focus on Laser Driven Nuclear Physics (this TDR, acronym LDNP, associated to the E1 experimental area), High Field Physics and QED (associated to the E6 area) and fundamental research opened by the unique combination of the two 10 PW laser pulses with a gamma beam provided by the Gamma Beam System (associated to E7 area). The scientific case of the LDNP TDR encompasses studies of laser induced nuclear reactions, aiming for a better understanding of nuclear properties, of nuclear reaction rates in laser-plasmas, as well as on the development of radiation source characterization methods based on nuclear techniques. As an example of proposed studies: the promise of achieving solid-state density bunches of (very) heavy ions accelerated to about 10 MeV/nucleon through the RPA mechanism will be exploited to produce highly astrophysical relevant neutron rich nuclei around the N~126 waiting point, using the sequential fission-fusion scheme, complementary to any other existing or planned method of producing radioactive nuclei. The studies will be implemented predominantly in the E1 area of ELI-NP. However, many of them can be, in a first stage, performed in the E5 and/or E4 areas, where higher repetition laser pulses are available, while the harsh X-ray and electromagnetic pulse (EMP) environments are less damaging compared to E1. A number of options are discussed through the document, having an important impact on the budget and needed resources. Depending on the TDR review and subsequent project decisions, they may be taken into account for space reservation, while their detailed design and implementation will be postponed. The present TDR is the result of contributions from several institutions engaged in nuclear physics and high power laser research. A significant part of the proposed equipment can be designed, and afterwards can be built, only in close collaboration with (or subcontracting to) some of these institutions. A Memorandum of Understanding (MOU) is currently under preparation with each of these key partners as well as with others that are interested to participate in the design or in the future experimental program.

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