| Nome |
# |
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RadioLab tra presente e futuro., file dfe4d22e-4a38-bb0a-e053-d805fe0a78d9
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276
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Nuclear astrophysics experiments with trojan horse method, file dfe4d22b-b322-bb0a-e053-d805fe0a78d9
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83
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A hitchhiker's guide to the Trojan Horse Method, file dfe4d22d-6685-bb0a-e053-d805fe0a78d9
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24
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The 10B(p, α)7Be S(E)-factor from 5 keV to 1.5 MeV using the Trojan Horse Method, file dfe4d22d-1ec0-bb0a-e053-d805fe0a78d9
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23
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A new high-precision upper limit of direct α-decays from the
Hoyle state in 12C, file dfe4d22c-9477-bb0a-e053-d805fe0a78d9
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20
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Status and Perspectives of the INFN-LNS In-Flight Fragment Separator, file dfe4d22d-1d0f-bb0a-e053-d805fe0a78d9
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20
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Calibration of detectors for studying the 19 F(p,α) 16 O reaction at astrophysical energies via the Trojan Horse Method, file dfe4d22b-b4b1-bb0a-e053-d805fe0a78d9
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19
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Erratum to: An increase in the 12C + 12C fusion rate from resonances at astrophysical energies (Nature, (2018), 557, 7707, (687-690), 10.1038/s41586-018-0149-4), file dfe4d22d-1a84-bb0a-e053-d805fe0a78d9
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17
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Neutron-induced reactions investigated via the Trojan Horse Method, file dfe4d22b-01fd-bb0a-e053-d805fe0a78d9
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16
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Measurement of the 10B( p,α0)7Be cross section from 5 keV to 1.5 MeV in a
single experiment using the Trojan horse method, file dfe4d22b-dcc8-bb0a-e053-d805fe0a78d9
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16
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26Mg target for nuclear astrophysics measurements, file dfe4d22c-32e6-bb0a-e053-d805fe0a78d9
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16
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Experimental Studies of Light-Ion Nuclear Reactions Using Low-Energy RI Beams, file dfe4d22d-668e-bb0a-e053-d805fe0a78d9
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16
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Indirect measurements for (p,α) reactions involving boron isotopes, file dfe4d227-366e-bb0a-e053-d805fe0a78d9
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15
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Recent results on the 10B(p,α)7Be reaction studied via THM at low energies, file dfe4d22b-d96c-bb0a-e053-d805fe0a78d9
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15
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ANC experiments for nuclear astrophysics in NPI CAS, file dfe4d22d-206c-bb0a-e053-d805fe0a78d9
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15
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A new measurement of the direct alpha-decay width of the Hoyle state in 12C, file dfe4d22d-2ba2-bb0a-e053-d805fe0a78d9
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15
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Cross-section Measurement of the Cosmologically Relevant 7Be(n, α)4He Reaction over a Broad Energy Range in a Single Experiment, file dfe4d22b-d973-bb0a-e053-d805fe0a78d9
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14
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The Trojan Horse Method application on the 10B(p, α 0)7Be reaction cross section measurements, file dfe4d22c-2f6b-bb0a-e053-d805fe0a78d9
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14
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The 12C(12C,α)20Ne and 12C(12C,p)23Na reactions at the Gamow peak via the Trojan Horse Method, file dfe4d22c-3554-bb0a-e053-d805fe0a78d9
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14
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The Trojan Horse Method in Nuclear Astrophysics, file dfe4d22c-36e8-bb0a-e053-d805fe0a78d9
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14
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Clusterization of light nuclei and the Trojan Horse Method, file dfe4d22c-422c-bb0a-e053-d805fe0a78d9
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14
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Coulomb suppression effects in the proton-proton elastic scattering extracted from the H-2(p,pp)n reaction, file dfe4d227-96af-bb0a-e053-d805fe0a78d9
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13
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Improved information on astrophysical S-factor for the10B(p, α0)7Be reaction using the Trojan Horse method, file dfe4d22c-422a-bb0a-e053-d805fe0a78d9
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13
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New direct measurement of the 10B(p, α)7Be reaction with the activation technique, file dfe4d22c-47b2-bb0a-e053-d805fe0a78d9
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13
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Range of plasma ions in cold cluster gases near the critical point, file dfe4d22d-03d2-bb0a-e053-d805fe0a78d9
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13
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Nuclear Astrophysics with the Trojan Horse Method, file dfe4d22b-0e84-bb0a-e053-d805fe0a78d9
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12
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Indirect study of the 16O+16O fusion
reaction toward stellar energies by the
Trojan Horse Method, file dfe4d22c-3132-bb0a-e053-d805fe0a78d9
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12
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On the investigation of resonances above and below the threshold in nuclear reactions of astrophysical interest using the Trojan Horse Method, file dfe4d22d-1a83-bb0a-e053-d805fe0a78d9
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12
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Study of the neutron-induced reaction O-17(n, alpha)C-14 at astrophysical energies via the Trojan Horse Method, file dfe4d22d-7012-bb0a-e053-d805fe0a78d9
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12
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Improved results on extraction of 11B(p,α0) 8Be and 10B(p,α)7Be S(E)-factor through the Trojan Horse Method, file dfe4d227-abb4-bb0a-e053-d805fe0a78d9
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11
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The 19F(α,p)22Ne and 23Na(p,α)20Ne Reactions at Energies of Astrophysical Interest via the Trojan Horse Method, file dfe4d22b-ebf4-bb0a-e053-d805fe0a78d9
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11
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The 19F(α, p)22Ne and 23Na(p, α)20Ne reaction in AGB nucleosynthesis via THM, file dfe4d22c-3c69-bb0a-e053-d805fe0a78d9
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11
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On the Determination of the 7Be(n, α)4He Reaction Cross Section at BBN Energies, file dfe4d22d-2220-bb0a-e053-d805fe0a78d9
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11
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The α-decay of the Hoyle state in 12C: A new high-precision investigation, file dfe4d22d-437d-bb0a-e053-d805fe0a78d9
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11
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Indirect study of (p, alpha) and (n, alpha) reactions induced on boron isotopes, file dfe4d227-35c1-bb0a-e053-d805fe0a78d9
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10
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The Treiman-Yang Criterion: Validating the Trojan Horse Method by experimentally probing the reaction mechanism, file dfe4d22b-dcbe-bb0a-e053-d805fe0a78d9
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10
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Investigation of the Hoyle state in12C with a new hodoscope detector, file dfe4d22c-7ff8-bb0a-e053-d805fe0a78d9
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10
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Neutron-Driven Nucleosynthesis in Stellar Plasma, file 41a2d247-1138-46f3-b0cb-14f7482057ae
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9
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Validity test of the Trojan Horse Method applied to the (7)Li + p -> alpha plus alpha reaction via the (3)He break-up, file dfe4d227-8a70-bb0a-e053-d805fe0a78d9
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9
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Indirect measurement of the (15)N(p,alpha)(12)C reaction cross section through the Trojan-Horse Method, file dfe4d227-a9f1-bb0a-e053-d805fe0a78d9
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9
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THM applied to the investigation of explosive astrophysical scenarios, file dfe4d22b-01fe-bb0a-e053-d805fe0a78d9
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9
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Observation of N 15 +α resonant structures in F 19 using the thick target in inverse kinematics scattering method, file dfe4d22b-cdb6-bb0a-e053-d805fe0a78d9
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9
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An increase in the 12C + 12C fusion rate from resonances at astrophysical energies, file dfe4d22b-f413-bb0a-e053-d805fe0a78d9
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9
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Preliminary investigation on regeneration of simulated radionuclide-contaminated activated carbons by microwave irradiation, file dfe4d22d-0d92-bb0a-e053-d805fe0a78d9
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9
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Studying astrophysical reactions with low-energy RI beams at CRIB, file dfe4d22d-6681-bb0a-e053-d805fe0a78d9
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9
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The 10B(n, α)7Li cross sections at ultra-low energy through the Trojan Horse Method applied to the 2H(10B, α7 Li)1H, file dfe4d22b-4d9c-bb0a-e053-d805fe0a78d9
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8
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The astrophysical S-factor of the direct 18O(p, γ)19F capture by the ANC method, file dfe4d22c-3702-bb0a-e053-d805fe0a78d9
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8
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Indirect study of the astrophysically relevant Li-6(p, a)He-3 reaction by means of the Trojan Horse Method, file dfe4d227-1ad6-bb0a-e053-d805fe0a78d9
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7
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Lithium and age of pre-main sequence stars: the case of Parenago 1802, file dfe4d227-2156-bb0a-e053-d805fe0a78d9
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7
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The Trojan Horse Method applied to 2H(6Li,a)4He at astrophysical energies, file dfe4d227-2368-bb0a-e053-d805fe0a78d9
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7
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Investigation on novel high-density grouts for in situ stabilisation/solidification of 137Cs-contaminated soils, file dfe4d22d-0bfa-bb0a-e053-d805fe0a78d9
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7
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Gamma ray beams for nuclear astrophysics: First results of tests and simulations of the ELISSA array, file dfe4d22d-5432-bb0a-e053-d805fe0a78d9
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7
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Spectator invariance test in the study of the Li-6,Li-7 fusion reactions via the Trojan Horse Method, file 6ef038b7-49f4-431c-b5c2-1d9d48235f72
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6
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alpha-cluster structure in light N not equal Z nuclei, file dfe4d227-30b6-bb0a-e053-d805fe0a78d9
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6
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Bare nucleus S(E) factor of the H-2(d,p)H-3 and H-2(d,n)He-3 reactions via the Trojan Horse Method, file dfe4d227-381e-bb0a-e053-d805fe0a78d9
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6
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Study Of The 7Li(p,a)4He Reaction at Astrophysical Energies Through The Trojan Horse Method, file dfe4d227-483d-bb0a-e053-d805fe0a78d9
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6
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Measurement of the 20 and 90 keV Resonances in the O-18(p,alpha)N-15 Reaction via the Trojan Horse Method, file dfe4d227-4a23-bb0a-e053-d805fe0a78d9
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6
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Indirect Measurement of 15N(p,alpha)12C and 18O(p,alpha)15N. Applications to the AGB Star Nucleosynthesis, file dfe4d227-6fa3-bb0a-e053-d805fe0a78d9
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6
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Study of the 10B(p,α) 7Be reaction through the Trojan
Horse Method, file dfe4d227-7594-bb0a-e053-d805fe0a78d9
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6
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Recent astrophysical applications of the trojan horse method to nuclear astrophysics, file dfe4d227-8056-bb0a-e053-d805fe0a78d9
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6
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The role of overshooting treatment in the s-process weak component efficiency, file dfe4d227-98cb-bb0a-e053-d805fe0a78d9
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6
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New High-Precision Measurement of the Reaction Rate of the O-18(p, alpha)N-15 Reaction via THM, file dfe4d227-aeb7-bb0a-e053-d805fe0a78d9
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6
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RECENT STUDIES ON TROJAN HORSE METHOD, file dfe4d227-b100-bb0a-e053-d805fe0a78d9
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6
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Nuclear astrophysics and neutron induced reactions: Quasi-free reactions and
RIBs, file dfe4d227-d0a6-bb0a-e053-d805fe0a78d9
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6
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Uncovering carbon burning in stars, file dfe4d22b-2ea2-bb0a-e053-d805fe0a78d9
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6
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Recent THM investigations of the Be-7(n,alpha)He-4 reaction in the BBN scenario, file dfe4d22b-3035-bb0a-e053-d805fe0a78d9
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6
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Study of O-16(C-12, alpha Ne-20)alpha for the investigation of carbon-carbon fusion reaction via the Trojan Horse Method., file dfe4d22d-5433-bb0a-e053-d805fe0a78d9
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6
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Study of the neutron induced reaction 17O(n,α)14C at astrophysical energies via the Trojan Horse Method, file e2c7a8b0-41ea-4671-b732-d6f57f198717
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6
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Nuclear Physics in Stellar Lifestyles with the Trojan Horse Method, file 14bd8b0e-983f-43e6-b57f-c4c080935346
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5
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Constraining the Primordial Lithium Abundance: New Cross Section Measurement of the 7Be + n Reactions Updates the Total 7Be Destruction Rate, file 2a62db80-d0cd-40fa-aec3-99ebc1c858d8
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5
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Indirect methods constraining nuclear capture - the Trojan Horse Method, file 53953130-adac-4431-b506-372f767e62ad
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5
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RIB induced reactions: Studying astrophysical reactions with low-energy RI beam at CRIB, file 5bf39f5b-802a-43ff-a822-f0fde7cd2eed
|
5
|
|
Experimental Study on the 7Be((n,p))7Li and the 7Be((n,alpha ))4He Reactions for Cosmological Lithium Problem, file 6a2c7b62-9d7a-4ae5-b3b6-785ed59acf20
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5
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Exploring the astrophysical energy range of the 27Al(p,α)24Mg reaction: A new recommended reaction rate, file 70b50735-5fa7-4aea-88a3-04a09ba25b97
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5
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Development of the ELISSA array: Prototype testing at Laboratori Nazionali del Sud, file 7bf9a1c5-f027-4e4d-9e22-36630e5c00fd
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5
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Experimental studies on astrophysical reactions at the low-energy RI beam separator CRIB, file a36e5491-72fc-468b-9578-a581854191af
|
5
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Study of the Li-6(n, alpha)H-3 reaction via the H-2 quasi-free break-up, file dfe4d227-06c9-bb0a-e053-d805fe0a78d9
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5
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Effects of Distortion on the Intercluster Motion in Light Nuclei, file dfe4d227-0738-bb0a-e053-d805fe0a78d9
|
5
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On the magnitude of the Li-8+He-4 -> B-11+n reaction cross section at the Big-Bang temperature, file dfe4d227-2888-bb0a-e053-d805fe0a78d9
|
5
|
|
Indirect study of B-11(p,alpha(0))Be-8 and B-10(p,alpha)Be-7 reactions at astrophysical energies by means of the Trojan Horse Method: recent results, file dfe4d227-2942-bb0a-e053-d805fe0a78d9
|
5
|
|
Erratum to “Low-energy d + d fusion reactions via the Trojan Horse Method”
[Phys. Lett. B 700 (2) (2011) 111], file dfe4d227-31a2-bb0a-e053-d805fe0a78d9
|
5
|
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First application of the Trojan horse method with a radioactive ion beam:
Study of the 18F( p,α)15O reaction at astrophysical energies, file dfe4d227-7006-bb0a-e053-d805fe0a78d9
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5
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Spectroscopic study of 26Si for application to nova
gamma-ray emission, file dfe4d227-7592-bb0a-e053-d805fe0a78d9
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5
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New results on the Trojan Horse Method applied to the 10,11B+p reactions, file dfe4d227-7a69-bb0a-e053-d805fe0a78d9
|
5
|
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Trojan Horse estimate of bare nucleus astrophysical S(E)-factor for the Li-6(p,alpha) He-3 reaction and its astrophysical implications, file dfe4d227-9966-bb0a-e053-d805fe0a78d9
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5
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Erratum: Molecular structures in T = 1 states of B-10 (vol 84, 054615, 2011), file dfe4d227-a95e-bb0a-e053-d805fe0a78d9
|
5
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High-Precision Probe of the Fully Sequential Decay Width of the Hoyle State in C 12, file dfe4d22c-7f75-bb0a-e053-d805fe0a78d9
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5
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Coulomb-free 1 S 0 p − p scattering length from the quasi-free p + d → p + p + n reaction and its relation to universality, file f722a6df-b8c7-4ad9-bbb4-57e5f67f0563
|
5
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Electron screening effects in (p,alpha) reactions induced on boron isotopes studied via the Trojan Horse Method, file 18dd2e63-5d66-44ea-b37e-a13fe3ac0f64
|
4
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A Geant4-based Monte Carlo Tool for Nuclear Astrophysics, file 1d517b54-9e04-4b55-8643-0a041420058e
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4
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Low-energy d plus d fusion via the Trojan Horse Method, file 7f458540-be95-4273-b97b-db61013e6578
|
4
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Trojan Horse Method: recent applications in nuclear astrophysics, file dfe4d227-0732-bb0a-e053-d805fe0a78d9
|
4
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The Trojan Horse Method as a tool to investigate low-energy resonances: the (18)O(p, alpha)(15)N and (17)O(p, alpha)(14)N cases, file dfe4d227-0735-bb0a-e053-d805fe0a78d9
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4
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Cross-section of Li-8(alpha, n)B-11: Inhomogeneous Big Bang nucleosynthesis, file dfe4d227-0741-bb0a-e053-d805fe0a78d9
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4
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Study Of The Quasi-Free Reaction Mechanism In The 6li(12c,α 12c)2h Reaction: Astrophysical Implications, file dfe4d227-16d8-bb0a-e053-d805fe0a78d9
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4
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Experimental Study Of The 6li(D, )4he Reaction And Its Astrophysical Implications Via The Trojan Horse Method, file dfe4d227-1744-bb0a-e053-d805fe0a78d9
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4
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First Experimental Measurement of the O-18(p, alpha)N-15 Reaction at Astrophysical Energies, file dfe4d227-2817-bb0a-e053-d805fe0a78d9
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4
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AGB fluorine nucleosynthesis studied by means of Trojan-horse method: the case of (15)N(p,alpha)(12)C, file dfe4d227-281b-bb0a-e053-d805fe0a78d9
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4
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Validity test of the "Trojan horse" method applied to the Li-6(p,alpha)He-3 reaction, file dfe4d227-3196-bb0a-e053-d805fe0a78d9
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4
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Trojan Horse Method: Recent Experiments, file dfe4d227-37e1-bb0a-e053-d805fe0a78d9
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4
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| Totale |
1.228 |