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NSR database version of April 26, 2024.

Search: Author = M.Henri

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2023CI03      Phys.Rev. C 108, 054611 (2023)

C.Ciampi, S.Piantelli, G.Casini, A.Ono, J.D.Frankland, L.Baldesi, S.Barlini, B.Borderie, R.Bougault, A.Camaiani, A.Chbihi, J.A.Duenas, Q.Fable, D.Fabris, C.Frosin, T.Genard, F.Gramegna, D.Gruyer, M.Henri, B.Hong, S.Kim, A.Kordyasz, T.Kozik, M.J.Kweon, N.Le Neindre, I.Lombardo, O.Lopez, T.Marchi, K.Mazurek, S.H.Nam, J.Park, M.Parlog, G.Pasquali, G.Poggi, A.Rebillard-Soulie, A.A.Stefanini, S.Upadhyaya, S.Valdre, G.Verde, E.Vient, M.Vigilante, for the INDRA-FAZIA Collaboration

Quasiprojectile breakup and isospin equilibration at Fermi energies: Potential indication of longer projectile-target contact times

doi: 10.1103/PhysRevC.108.054611
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2023FA02      Phys.Rev. C 107, 014604 (2023)

Q.Fable, A.Chbihi, J.D.Frankland, P.Napolitani, G.Verde, E.Bonnet, B.Borderie, R.Bougault, E.Galichet, T.Genard, D.Gruyer, M.Henri, M.La Commara, A.Le Fevre, J.Lemarie, N.Le Neindre, O.Lopez, P.Marini, M.Parlog, A.Rebillard-Soulie, W.Trautmann, E.Vient, M.Vigilante

Experimental study of isospin transport with ^{40, 48}Ca + ^{40, 48}Ca reactions at 35 MeV/nucleon

NUCLEAR REACTIONS ^40,48Ca(⁴⁰Ca, X), E=34.81 MeV/nucleon; ^40,48Ca(⁴⁸Ca, X), E=34.83 MeV/nucleon; measured reaction products; deduced transverse energy distributions of light charged particles, distribution of the average asymmetry as a function of the experimental centrality for the projectile-like fragments (PLF) and quasiprojectile (QP), isospin transport ratios, average N/Z ratio for the emitted clusters, average light charged particles multiplicities. Combined VAMOS high acceptance spectrometer and the INDRA charged particle multidetector setup at GANIL.

doi: 10.1103/PhysRevC.107.014604
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2022FA07      Phys.Rev. C 106, 024605 (2022)

Q.Fable, A.Chbihi, M.Boisjoli, J.D.Frankland, A.Le Fevre, N.Le Neindre, P.Marini, G.Verde, G.Ademard, L.Bardelli, C.Bhattacharya, S.Bhattacharya, E.Bonnet, B.Borderie, R.Bougault, G.Casini, M.La Commara, R.Dayras, J.E.Ducret, F.Farget, E.Galichet, T.Genard, F.Gramegna, D.Gruyer, M.Henri, S.Kundu, J.Lemarie, O.Lopez, J.Lukasik, L.Manduci, J.Moisan, G.Mukherjee, P.Napolitani, A.Olmi, M.Parlog, S.Piantelli, G.Poggi, A.Rebillard-Soulie, R.Roy, B.Sorgunlu, S.Velardita, E.Vient, M.Vigilante, J.P.Wieleczko

Experimental study of the ^{40, 48}Ca + ^{40, 48}Ca reactions at 35 MeV/nucleon

NUCLEAR REACTIONS ^40,48Ca(⁴⁰Ca, X), (⁴⁸Ca, X), E=35 MeV/nucleon; measured reaction products; deduced average neutron excess of the fragments, average forward-emitted multiplicities, average neutron multiplicities, angular distributions of quasiprojectile fragments, mass and isotopic fission fragments distributions, average excitation energy per nucleon. Comparison to simulations performed in the framework of the antisymmetrized molecular dynamics (AMD) model coupled to the statistical decay code GEMINI++ as afterburner. 4π charged particle multidetector array INDRA and VAMOS spectrometer at GANIL.

doi: 10.1103/PhysRevC.106.024605
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2021CA04      Phys.Rev. C 103, 014605 (2021)

A.Camaiani, G.Casini, S.Piantelli, A.Ono, E.Bonnet, R.Alba, S.Barlini, B.Borderie, R.Bougault, C.Ciampi, A.Chbihi, M.Cicerchia, M.Cinausero, J.A.Duenas, D.Dell'Aquila, Q.Fable, D.Fabris, C.Frosin, J.D.Frankland, F.Gramegna, D.Gruyer, K.I.Hahn, M.Henri, B.Hong, S.Kim, A.Kordyasz, M.J.Kweon, H.J.Lee, J.Lemarie, N.LeNeindre, I.Lombardo, O.Lopez, T.Marchi, S.H.Nam, P.Ottanelli, M.Parlog, G.Pasquali, G.Poggi, J.Quicray, A.A.Stefanini, S.Upadhyaya, S.Valdre, E.Vient

Isospin diffusion measurement from the direct detection of a quasiprojectile remnant

NUCLEAR REACTIONS ^40,48Ca(⁴⁰Ca, X), (⁴⁸Ca, X), E=35 MeV/nucleon; measured reaction products, particle spectra, N/Z of quasiprojectiles (QP) using FAZIA multitelescope array at the Superconducting Cyclotron facility of INFN-LNS-Catania; deduced isotopic identification of QP phase space, isospin transport ratio, isospin diffusion as a function of reaction centrality, comparison between QP evaporative and break-up channel. Comparison of the measured equilibration degree with model predictions using antisymmetrized molecular dynamics (AMD) coupled with statistical decay using GEMINI++ code.

doi: 10.1103/PhysRevC.103.014605
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2021FR08      Phys.Rev. C 104, 034609 (2021)

J.D.Frankland, D.Gruyer, E.Bonnet, B.Borderie, R.Bougault, A.Chbihi, J.E.Ducret, D.Durand, Q.Fable, M.Henri, J.Lemarie, N.Le Neindre, I.Lombardo, O.Lopez, L.Manduci, M.Parlog, J.Quicray, G.Verde, E.Vient, M.Vigilante, for the INDRA Collaboration

Model independent reconstruction of impact parameter distributions for intermediate energy heavy ion collisions

NUCLEAR REACTIONS ⁵⁸Ni(⁵⁸Ni, X), E=52, 73.96-90.0 MeV/nucleon; K(³⁶Ar, X), E=31.54-51.66 MeV/nucleon; Cl(³⁶Ar, X), E=31.54-51.66 MeV/nucleon; ⁵⁸Ni(³⁶Ar, X), E=63.03-63.63 MeV/nucleon; ¹⁹⁷Au(⁵⁸Ni, X), E=31.98-82.0 MeV/nucleon; Sn(¹²⁹Xe, X), E=24.98-50.3 MeV/nucleon; ¹²⁴Sn(¹²⁹Xe, X), E=65.00-100.0 MeV/nucleon; ¹⁹⁷Au(¹⁹⁷Au, X), E=40.0-100.0 MeV/nucleon; analyzed large experimental dataset for intermediate energy (20-100 MeV/nucleon) heavy-ion collisions from INDRA collaboration at GANIL facility to extract by a model-independent method to investigate relationship between any experimental observable and the impact parameter distributions; deduced parameters of fits to total charged particle multiplicity distributions, and transverse light charged particles (LCP) energy distributions; analyzed simulations of ⁵⁸Ni(⁵⁸Ni, X), E=52 MeV/nucleon events using microscopic transport model (AMD), and statistical decay code GEMINI++. Relevance to improvement of constraints on the nuclear equation of state from comparisons between data on intermediate energy heavy ion collisions and transport model calculations.

doi: 10.1103/PhysRevC.104.034609
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2020BO06      Eur.Phys.J. A 56, 101 (2020)

B.Borderie, S.Piantelli, E.Bonnet, R.Bougault, A.Chbihi, J.E.Ducret, J.D.Frankland, E.Galichet, D.Gruyer, M.Henri, M.La Commara, N.Le Neindre, I.Lombardo, O.Lopez, L.Manduci, M.Parlog, R.Roy, G.Verde, M.Vigilante

Negative heat capacity for hot nuclei using formulation from the microcanonical ensemble INDRA Collaboration

doi: 10.1140/epja/s10050-020-00109-9
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2020BO20      J.Phys.(London) G47, 025103 (2020)

R.Bougault, E.Bonnet, B.Borderie, A.Chbihi, J.D.Frankland, E.Galichet, D.Gruyer, M.Henri, M.La Commara, N.Le Neindre, I.Lombardo, O.Lopez, L.Manduci, M.Parlog, R.Roy, G.Verde, M.Vigilante

Equilibrium constants of hydrogen and helium isotopes at low nuclear densities

NUCLEAR REACTIONS ^112,124Sn(¹²⁴Xe, X), (¹³⁶Xe, X), E=32 MeV/nucleon; measured reaction products, Ep, Ip, Eα, Iα. ^1,2,3H, ^3,4,6He; deduced multiplicities, equilibrium constants for hydrogen and helium isotopes as a function of density and temperature. Comparison with available data.

doi: 10.1088/1361-6471/ab56ba
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2020HE14      Phys.Rev. C 101, 064622 (2020)

M.Henri, O.Lopez, D.Durand, B.Borderie, R.Bougault, A.Chbihi, Q.Fable, J.D.Frankland, E.Galichet, D.Gruyer, J.Lemarie, N.Le Neindre, I.Lombardo, M.Parlog, J.Quicray, G.Verde, E.Vient, M.Vigilante, for the INDRA Collaboration

In-medium effects in central heavy ion collisions at intermediate energies

NUCLEAR REACTIONS K, Cl(³⁶Ar, X), E=32-74; ⁵⁸Ni(⁵⁸Ni, X), E=32-90; Sn(¹²⁹Xe, X), E=12-50 MeV; ¹¹⁹Sn(¹²⁹Xe, X)²H/³H/³He/⁴He, E=50 MeV; ¹²⁴Sn(¹²⁹Xe, X), E=65-100 MeV; ^112,124Sn(¹²⁴Xe, X), (¹³⁶Xe, X), E=32, 45 MeV; ¹⁹⁷Au(¹⁹⁷Au, X), E=40-100 MeV; measured and analyzed Ep, Ip, and proton isotropy ratios in experiments using the 4π multidetector INDRA at GANIL for heavy ion collisions; deduced in-medium nucleon-nucleon σ(E), mean free paths, nuclear reduction factors, formation of d, t, ³He and α clusters, mean internal kinetic energies of nucleons inside the cluster Comparison with predictions of coalescence model.

doi: 10.1103/PhysRevC.101.064622
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2020PA23      Phys.Rev.Lett. 125, 012701 (2020)

H.Pais, R.Bougault, F.Gulminelli, C.Providencia, E.Bonnet, B.Borderie, A.Chbihi, J.D.Frankland, E.Galichet, D.Gruyer, M.Henri, N.Le Neindre, O.Lopez, L.Manduci, M.Parlog, G.Verde

Low Density In-Medium Effects on Light Clusters from Heavy-Ion Data

NUCLEAR REACTIONS ¹²⁴Sn(¹³⁶Xe, X), ¹¹²Sn(¹²⁴Xe, X), E not given; analyzed available data; deduced chemical constants from heavy-ion collisions.

doi: 10.1103/PhysRevLett.125.012701
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2020PI03      Phys.Rev. C 101, 034613 (2020)

S.Piantelli, G.Casini, A.Ono, G.Poggi, G.Pastore, S.Barlini, A.Boiano, E.Bonnet, B.Borderie, R.Bougault, M.Bruno, A.Buccola, A.Camaiani, A.Chbihi, M.Cicerchia, M.Cinausero, M.D'Agostino, M.Degerlier, J.A.Duenas, Q.Fable, D.Fabris, J.D.Frankland, C.Frosin, F.Gramegna, D.Gruyer, M.Henri, A.Kordyasz, T.Kozik, N.Le Neindre, I.Lombardo, O.Lopez, G.Mantovani, T.Marchi, L.Morelli, A.Olmi, P.Ottanelli, M.Parlog, G.Pasquali, A.A.Stefanini, G.Tortone, S.Upadhyaya, S.Valdre, G.Verde, E.Vient, M.Vigilante, R.Alba, C.Maiolino

Dynamical fission of the quasiprojectile and isospin equilibration for the system ⁸⁰Kr ⁴⁸Ca at 35 MeV/nucleon

NUCLEAR REACTIONS ¹²C, ⁴⁸Ca(⁸⁰Kr, X), E=35 MeV/nucleon; measured reaction products, (fragment)(fragment)-coin using FAZIA blocks of 16 three-layer silicon-CsI(Tl) telescopes at the CS cyclotron facility of INFN-LNS, Catania, as FAZIA Collaboration; deduced velocity, charge and isotopic distributions of fragments, and fragment isospin asymmetry. Comparison with antisymmetrized molecular dynamics (AMD) model calculations, coupled to the GEMINI code to determine quasiparticle breakup timescales.

doi: 10.1103/PhysRevC.101.034613
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2018BO08      Phys.Rev. C 97, 024612 (2018)

R.Bougault, E.Bonnet, B.Borderie, A.Chbihi, D.Dell'Aquila, Q.Fable, L.Francalanza, J.D.Frankland, E.Galichet, D.Gruyer, D.Guinet, M.Henri, M.La Commara, N.Le Neindre, I.Lombardo, O.Lopez, L.Manduci, P.Marini, M.Parlog, R.Roy, P.Saint-Onge, G.Verde, E.Vient, M.Vigilante

Light charged clusters emitted in 32 MeV/nucleon ^{136, 124}Xe+^{124, 112}Sn reactions: Chemical equilibrium and production of ³He and ⁶He

NUCLEAR REACTIONS ^112,124Sn(¹²⁴Xe, X), (¹³⁶Xe, X), ¹H/²H/³H/³He/⁴He/⁶He, E=32 MeV/nucleon; measured reaction products, and light charged particles, σ for production of forward center of mass light charged particles using 4π multidetector INDRA at GANIL facility; deduced sum of light charged particle transverse energy distribution, Galilean invariant center of mass velocity contour plots for different impact parameters, ratios of mean light charged isotope multiplicities, forward center of mass cluster abundance ratios.

doi: 10.1103/PhysRevC.97.024612
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2018CA27      Nuovo Cim. C 41, 172 (2018)

A.Camaiani, G.Casini, S.Piantelli, E.Bonnet, R.Alba, S.Barlini, M.Bini, B.Borderie, R.Bougault, M.Bruno, A.Buccola, A.Chbihi, M.Cicerchia, M.Cinausero, D.Dell'Aquila, J.A.Duenas, Q.Fable, D.Fabris, L.Francalanza, J.D.Frankland, C.Frosin, F.Gramegna, D.Gruyer, M.Henri, A.Kordyasz, T.Kozik, N.Le Neindre, I.Lombardo, O.Lopez, C.Maiolino, T.Marchi, L.Morelli, A.Olmi, P.Ottanelli, G.Pasquali, G.Pastore, M.Parlog, G.Poggi, D.Santonocito, A.A.Stefanini, S.Valdre, E.Vient, G.Verde, M.Vigilante

Isotopic composition of quasi-projectile fission fragments for the systems ^{40, 48}Ca+^{40, 48}Ca at 35 AMeV

NUCLEAR REACTIONS ^40,48Ca(⁴⁰Ca, X), (⁴⁸Ca, X), E=35 MeV/nucleon; measured reaction products; deduced neutron multiplicities, neutron richness of fragments.

doi: 10.1393/ncc/i2018-18172-x
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2018VI03      Eur.Phys.J. A 54, 96 (2018)

E.Vient, L.Augey, B.Borderie, A.Chbihi, D.Dell'Aquila, Q.Fable, L.Francalanza, J.D.Frankland, E.Galichet, D.Gruyer, D.Guinet, M.Henri, M.La Commara, E.Legouee, G.Lehaut, N.Le Neindre, I.Lombardo, O.Lopez, L.Manduci, P.Marini, M.Parlog, M.F.Rivet, E.Rosato, R.Roy, P.St-Onge, G.Spadaccini, G.Verde, for the INDRA Collaboration

Understanding the thermometry of hot nuclei from the energy spectra of light charged particles

NUCLEAR STRUCTURE ¹²⁰Sn; calculated light charged particle (n, p, d, t, ³He, α) sequential emission yield vs E_out at initial E^*=1.5, 4 MeV/nucleon, mean correlation between initial temperature and true apparent temperature separately for each type of emitted particles using GEMINI and SIMON codes within Weisskopf theory in the form explicitely containing nuclear temperature; deduced influence on detection efficiency by INDRA detector array.

doi: 10.1140/epja/i2018-12531-5
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2018VI05      Phys.Rev. C 98, 044612 (2018)

E.Vient, L.Manduci, E.Legouee, L.Augey, E.Bonnet, B.Borderie, R.Bougault, A.Chbihi, D.Dell'Aquila, Q.Fable, L.Francalanza, J.D.Frankland, E.Galichet, D.Gruyer, D.Guinet, M.Henri, M.La Commara, G.Lehaut, N.Le Neindre, I.Lombardo, O.Lopez, P.Marini, M.Parlog, M.F.Rivet, E.Rosato, R.Roy, P.St-Onge, G.Spadaccini, G.Verde, M.Vigilante

Validation of a new "3D calorimetry" of hot nuclei with the HIPSE event generator

NUCLEAR REACTIONS Sn(Xe, X), E=50 MeV/nucleon; calculated total detected charge as a function of the detected pseudomomentum, distribution of impact parameters, transverse kinetic energy and average detection efficiency of light charge particles as a function of the impact parameter, mean charge and mean parallel velocities of the two heaviest fragments, proportions of the various types of reaction mechanisms, mean correlations between the excitation energy, charge, and velocity of the quasiprojectile (QP) and the transverse kinetic energy using Heavy Ion Phase Space Exploration (HIPSE) event generator. Comparison with experimental values. See also adjoining 2018Vi04 article.

doi: 10.1103/PhysRevC.98.044612
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