Title: The n_TOF facility: Neutron beams for challenging future measurements at CERN
Authors: CHIAVERI E.ABERLE O.ANDRZEJEWSKI J.AUDOUIN L.BACAK M.BALIBREA J.BARBAGALLO M.BECVÁR F.BERTHOUMIEUX E.BILLOWES J.BOSNAR D.BROWN A.CAAMANO M.CALVIÑO F.CALVIANI M.CANO-OTT D.CARDELLA R.CASANOVAS A.CERUTTI F.CHEN Y. H.COLONNA N.CORTES G.CORTES-GIRALDO M. A.COSENTINO LUIGIDAMONE L.DIAKAKI M.DOMINGO-PARDO C.DRESSLER R.DUPONT E.DURAN I.FERNANDEZ-DOMINGUEZ B.FERRARI A.FERREIRA P.FINOCCHIARO PAOLOGÖBEL K.GARCIA A. R.GAWLIK A.GILARDONI S.GLODARIU T.GONCALVES I.GONZALEZ-ROMERO E.GRIESMAYER E.GUERRERO C.GUNSING F.HARADA H.HEINITZ S.HEYSE JANJENKINS D. G.JERICHA E.KAEPPELER F.KADI Y.KALAMARA A.KAVRIGIN P.KIMURA A.KIVEL NIKOKOKKORIS M.KRTICKA M.KURTULGIL D.LEAL-CIDONCHA E.LEDERER C.LEEB H.LERENDEGUI-MARCO J.LO MEO S.LONSDALE S.MACINA D.MARGANIEC J.MARTÍNEZ T.MASI A.MASSIMI C.MASTINU P.MASTROMARCO M.MAUGERI E.MAZZONE A.MENDOZA E.MENGONI A.MILAZZO P. M.MINGRONE F.MUSUMARRA A.NEGRET A.NOLTE R.OPREA A.PATRONIS N.PAVLIK ANDREASPERKOWSKI J.PORRAS I.PRAENA J.QUESADA J.RADECK D.RAUSCHER T.REIFARTH R.RUBBIA C.RYAN J.SABATE-GILARTE MSAXENA A.SCHILLEBEECKX PETERSCHUMANN D.SMITH A. G.SOSNIN N. V.STAMATOPOULOS A.TAGLIENTE G.TAIN J. L.TARIFENO-SALDIVIA A.TASSAN-GOT L.TSINGANIS A.VALENTA S.VANNINI G.VARIALE V.VAZ P.VENTURA A.VLACHOUDIS V.VLASTOU R.WALLNER A.WARREN S.WOODS P. J.WRIGHT T. J.ZUGEC P.
Citation: EPJ Web of Conferences vol. 146 p. 03001
Publisher: EDP Sciences
Publication Year: 2017
JRC N°: JRC108669
ISSN: 2100 014X
URI: http://publications.jrc.ec.europa.eu/repository/handle/JRC108669
DOI: 10.1051/epjconf/201714603001
Type: Articles in periodicals and books
Abstract: The CERN n_TOF neutron beam facility is characterized by a very high instantaneous neutron flux, excellent TOF resolution at the 185 m long flight path (EAR-1), low intrinsic background and coverage of a wide range of neutron energies, from thermal to a few GeV. These characteristics provide a unique possibility to perform high-accuracy measurements of neutron-induced reaction cross-sections and angular distributions of interest for fundamental and applied Nuclear Physics. Since 2001, the n_TOF Collaboration has collected a wealth of high quality nuclear data relevant for nuclear astrophysics, nuclear reactor technology, nuclear medicine, etc. The overall efficiency of the experimental program and the range of possible measurements has been expanded with the construction of a second experimental area (EAR-2), located 20 m on the vertical of the n_TOF spallation target. This upgrade, which benefits from a neutron flux 30 times higher than in EAR-1, provides a substantial extension in measurement capabilities, opening the possibility to collect data on neutron cross-section of isotopes with short half-lives or available in very small amounts. This contribution will outline the main characteristics of the n_TOF facility, with special emphasis on the new experimental area. In particular, we will discuss the innovative features of the EAR-2 neutron beam that make possible to perform very challenging measurements on short-lived radioisotopes or sub-mg samples, out of reach up to now at other neutron facilities around the world. Finally, the future perspectives of the facility will be presented.
JRC Directorate:Nuclear Safety and Security

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