Your search keyword '"M. Rosetti"' showing total 3 results

1. n_TOF Experiment: Past, Present And Future

Author

S. Marrone, U. Abbondanno, G. Aerts, H. Álvarez, F. Alvarez-Velarde, S. Andriamonje, J. Andrzejewski, P. Assimakopoulos, L. Audouin, G. Badurek, P. Baumann, F. Bečvář, E. Berthoumieux, M. Calviani, F. Calviño, D. Cano-Ott, R. Capote, A. Carnllo de Albornoz, P. Cennini, V. Chepel, E. Chiaveri, N. Colonna, G. Cortes, A. Couture, J. Cox, M. Dahlfors, S. David, I. Dillmann, R. Dolfini, C. Domingo-Pardo, W. Dridi, I. Duran, C. Eleftheriadis, M. Embid-Segura, L. Ferrant, A. Ferrari, R. Ferreira-Marques, L. Fitzpatrick, H. Frais-Koelbl, K. Fujii, W. Furman, R. Gallino, I. Goncalves, E. Gonzalez-Romero, A. Goverdovski, F. Gramegna, E. Griesmayer, C. Guerrero, F. Gunsing, B. Haas, R. Haight, M. Heil, A. Herrera-Martinez, M. Igashira, S. Isaev, E. Jericha, Y. Kadi, F. Käppeler, D. Karamanis, D. Karadimos, M. Kerveno, V. Ketlerov, P. Koehler, V. Konovalov, E. Kossionides, M. Krtička, C. Lamboudis, H. Leeb, A. Lindote, I. Lopes, M. Lozano, S. Lukic, J. Marganiec, L. Marques, C. Massimi, P. Mastinu, A. Mengoni, P. M. Milazzo, C. Moreau, M. Mosconi, F. Neves, H. Oberhummer, S. O’Brien, J. Pancin, C. Papachristodoulou, C. Papadopoulos, C. Paradela, N. Patronis, A. Pavlik, P. Pavlopoulos, L. Perrot, M. Pignatari, R. Plag, A. Plompen, A. Plukis, A. Poch, C. Pretel, J. Quesada, T. Rauscher, R. Reifarth, M. Rosetti, C. Rubbia, G. Rudolf, P. Rullhusen, J. Salgado, L. Sarchiapone, I. Savvidis, C. Stephan, G. Tagliente, J. L. Tain, L. Tassan-Got, L. Tavora, R. Terlizzi, G. Vannini, P. Vaz, A. Ventura, D. Villamarin, M. C. Vincente, V. Vlachoudis, R. Vlastou, F. Voss, S. Walter, H. Wendler, M. Wiescher, K. Wisshak, Dugersuren Dashdorj, Undraa Agvaanluvsan, Gary E. Mitchell, Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear, European Commission Joint Research Centre European Community (EC), Dugersuren Dashdorj , Undraa Agvaanluvsan and Gary E. Mitchell, S. Marrone, U. Abbondanno, G. Aert, H. Álvarez, F. Alvarez-Velarde, S. Andriamonje, J. Andrzejewski, P. Assimakopoulo, L. Audouin, G. Badurek, P. Baumann, F. Bečvář, E. Berthoumieux, M. Calviani, F. Calviño, D. Cano-Ott, R. Capote, A. Carnllo de Albornoz, P. Cennini, V. Chepel, E. Chiaveri, N. Colonna, G. Corte, A. Couture, J. Cox, M. Dahlfor, S. David, I. Dillmann, R. Dolfini, C. Domingo-Pardo, W. Dridi, I. Duran, C. Eleftheriadi, M. Embid-Segura, L. Ferrant, A. Ferrari, R. Ferreira-Marque, L. Fitzpatrick, H. Frais-Koelbl, K. Fujii, W. Furman, R. Gallino, I. Goncalve, E. Gonzalez-Romero, A. Goverdovski, F. Gramegna, E. Griesmayer, C. Guerrero, F. Gunsing, B. Haa, R. Haight, M. Heil, A. Herrera-Martinez, M. Igashira, S. Isaev, E. Jericha, Y. Kadi, F. Käppeler, D. Karamani, D. Karadimo, M. Kerveno, V. Ketlerov, P. Koehler, V. Konovalov, E. Kossionide, M. Krtička, C. Lamboudi, H. Leeb, A. Lindote, I. Lope, M. Lozano, S. Lukic, J. Marganiec, L. Marque, C. Massimi, P. Mastinu, A. Mengoni, P. M. Milazzo, C. Moreau, M. Mosconi, F. Neve, H. Oberhummer, S. O’Brien, J. Pancin, C. Papachristodoulou, C. Papadopoulo, C. Paradela, N. Patroni, A. Pavlik, P. Pavlopoulo, L. Perrot, M. Pignatari, R. Plag, A. Plompen, A. Pluki, A. Poch, C. Pretel, J. Quesada, T. Rauscher, R. Reifarth, M. Rosetti, C. Rubbia, G. Rudolf, P. Rullhusen, J. Salgado, L. Sarchiapone, I. Savvidi, C. Stephan, G. Tagliente, J. L. Tain, L. Tassan-Got, L. Tavora, R. Terlizzi, G. Vannini, P. Vaz, A. Ventura, D. Villamarin, M. C. Vincente, V. Vlachoudi, R. Vlastou, F. Vo, S. Walter, H. Wendler, M. Wiescher, K. Wisshak, Dugersuren Dashdorj, Undraa Agvaanluvsan, and Gary E. Mitchell

Subjects

Physics, Large Hadron Collider, Fission, Physics::Instrumentation and Detectors, Nuclear Theory, Measure (physics), Th/U fuel cycle, nuclear technologie, spallation neutron source, Nuclear physics, Neutron capture and fission cross sections, Neutron capture, Nuclear technology, Upgrade, MINOR ACTINIDES TRANSMUTATIONS, Photon strength function, Data analysis, Physics::Accelerator Physics, Neutron, Nuclear Experiment

Abstract

The neutron Time-of-Flight facility at CERN was built to measure the neutron capture and fission cross sections. A short description of the facility, the detectors and the data analysis techniques will be illustrated. A short review of the preliminary results on the fission cross sections is presented together with the implications in fundamental nuclear physics and in nuclear technologies. Future perspectives both for the experimental campaign and for the upgrade of the facility are discussed. European Commission Joint Research Centre European Community (EC) FIKW-CT-2000-00107

Published

2009

2. Measuring the composition-curvature coupling in binary lipid membranes by computer simulations

Author

C. Pastorino, I. A. Barragán Vidal, Carla M. Rosetti, and Marcus Müller

Subjects

Analytical chemistry, General Physics and Astronomy, Thermal fluctuations, Quantitative Biology::Cell Behavior, Quantitative Biology::Subcellular Processes, purl.org/becyt/ford/1 [https], Membrane Lipids, Phenomenological model, Doping, purl.org/becyt/ford/1.4 [https], Computer Simulation, Lipid bilayer phase behavior, Physical and Theoretical Chemistry, Free energy, Lipid bilayer, Monolayers, Physics::Biological Physics, Chemistry, Otras Ciencias Químicas, Bilayer, Ciencias Químicas, Membrane structure, Lipid, Membrane, Chemical physics, Thermodynamics, Critical point phenomena, Membrane biophysics, CIENCIAS NATURALES Y EXACTAS

Abstract

The coupling between local composition fluctuations in binary lipid membranes and curvatureaffects the lateral membrane structure. We propose an efficient method to compute the composition-curvature coupling in molecular simulations and apply it to two coarse-grained membrane models—aminimal, implicit-solvent model and the MARTINI model. Both the weak-curvature behavior that istypical for thermal fluctuations of planar bilayer membranes as well as the strong-curvature regimecorresponding to narrow cylindrical membrane tubes are studied by molecular dynamics simulation.The simulation results are analyzed by using a phenomenological model of the thermodynamics ofcurved, mixed bilayer membranes that accounts for the change of the monolayer area upon bending.Additionally the role of thermodynamic characteristics such as the incompatibility between thetwo lipid species and asymmetry of composition are investigated. Fil: Barragán Vidal, I. A.. Georg August Universität, Gottingen; Alemania Fil: Rosetti, Carla Mariana. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Córdoba. Centro de Investigaciones en Química Biológica de Córdoba. Universidad Nacional de Córdoba. Facultad de Ciencias Químicas. Centro de Investigaciones en Química Biológica de Córdoba; Argentina Fil: Pastorino, Claudio. Comisión Nacional de Energía Atómica. Centro Atómico Constituyentes; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Müller, M.. Georg August Universität, Gottingen; Alemania

Published

2014

3. Measurements at n_TOF of the neutron capture cross section of minor actinides relevant to the nuclear waste transmutation

Author

M. Oshima, J. Andrzejewski, M. Krtička, Alfredo Ferrari, F. Calviño, Carlo Rubbia, G. Aerts, V. Vlachoudis, Corrie S. Moreau, R. Ferreira-Marques, V. Chepel, G. Rudolf, S. Lukic, L. Tavora, K. Wisshak, A. Pavlik, C. Domingo-Pardo, V. Konovalov, J. Salgado, A. Poch, P. Baumann, P. Rullhusen, S. Andriamonje, G. Vannini, F. Voss, H. Wendler, Carlos Guerrero, E. Chiaveri, P. F. Mastinu, Isabel Lopes, A. J. M. Plompen, E. Jericha, A. Herrera-Martinez, N. Patronis, E. Griesmayer, Yacine Kadi, H. Leeb, R. C. Haight, N. Colonna, U. Abbondanno, Heinz Oberhummer, Alberto Mengoni, James L. Cox, R. Gallino, F. Gramegna, L. Perrot, C. Paradela, F. Bečvář, S. David, D. Karamanis, L. Audouin, T. Papaevangelou, G. Cortes, G. Tagliente, Ralf Plag, J. Benlliure, J. Pancin, A. Carillo de Albornoz, Michael Wiescher, Michael Heil, C. Stephan, F. Gunsing, Masayuki Igashira, D. Cano-Ott, F. Neves, P. M. Milazzo, A. Plukis, P. E. Koehler, Roberto Capote, H. Frais-Koelbl, W.I. Furman, P.A. Assimakopoulos, J. Marganiec, R. Vlastou, A. Goverdovski, I. Duran, Georgios Perdikakis, E. Kossionides, E. Berthoumieux, F. Alvarez-Velarde, M. C. Vincente, C. A. Papachristodoulou, L. Sarchiapone, Gerald Badurek, S. Isaev, R. Dolfini, P. Cennini, M. Mosconi, A. Lindote, S. O'Brien, R. Terlizzi, A. Ventura, P. Vaz, Aaron Couture, C. T. Papadopoulos, B. Haas, L. Ferrant, Isabel S. Gonçalves, S. Marrone, L. Fitzpatrick, H. Álvarez, C. Lamboudis, J. L. Tain, M. Embid-Segura, D. Villamarin, M. Kerveno, W. Dridi, D. Cortina, Manuel Lozano, Rene Reifarth, J. M. Quesada, L. Tassan-Got, P. Pavlopoulos, L. Marques, K. Fujii, M. Rosetti, C. Pretel, V. Ketlerov, Thomas Rauscher, D. Karadimos, E. González-Romero, F. Käppeler, Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear, European Commission 5th Framework Programme, Institut de Physique Nucléaire d'Orsay (IPNO), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Institut de Recherches Subatomiques (IReS), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Cancéropôle du Grand Est-Université Louis Pasteur - Strasbourg I-Centre National de la Recherche Scientifique (CNRS), Centre d'Etudes Nucléaires de Bordeaux Gradignan (CENBG), Université Sciences et Technologies - Bordeaux 1-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), and nTOF

Subjects

Materials science, Nuclear transmutation, 010308 nuclear & particles physics, Nuclear engineering, Radioactive waste, chemistry.chemical_element, Americium, 25.40.Lw, 28.20.-v, 28.41.Kw, 27.90.+b, 28.41.Ak, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 01 natural sciences, 7. Clean energy, Calorimeter, Plutonium, chemistry, Neutron flux, 0103 physical sciences, Neutron cross section, Neutron, 010306 general physics

Abstract

Accurate and reliable neutron-capture cross-section data for actinides are necessary for the proper design, safety regulation, and precise performance assessment of transmutation devices such as Fast Critical Reactors or Accelerator Driven Systems. In particular, the neutron-capture cross sections of 237Np, 240Pu, and 243Am play a key role in the design and optimization of a strategy for the Nuclear Waste Transmutation. The listed cross sections have been measured in 2004 at n_TOF with a high accuracy due to a combination of features unique in the world: high instantaneous neutron fluence and excellent energy resolution of the n_TOF facility, innovative Data Acquisition System based on flash ADCs, and the use of a high-performance BaF2 Total Absorption Calorimeter as a detection device. European Commission 5th Framework Programme FIKW-CT-2000-00107

Published

2005