Your search keyword '"Pizzone, R.G."' showing total 235 results

1. Measurement of the 27Al(p, α)24Mg fusion reaction at astrophysical energies via the Trojan Horse Method.

Author

La Cognata, M., Palmerini, S., Adsley, P., Hammache, F., Di Pietro, A., Figuera, P., Dell 'Agli, F., Alba, R., Cherubini, S., Guardo, G.L., Gulino, M., Lamia, L., Lattuada, D., Maiolino, C., Oliva, A., Pizzone, R.G., Prajapati, P., Rapisarda, G.G., Romano, S., and Santonocito, D.

Subjects

NUCLEAR fusion, NUCLEAR astrophysics, NUCLEOSYNTHESIS, SUPERNOVAE, MILKY Way

Abstract

In astrophysics, the abundance of 26Al is essential for understanding nucleosynthesis in the Milky Way and Galactic core-collapse supernovae rates. Detection methods involve γ-ray lines and comparing 26Mg overabundance with the common Mg isotope in meteorites. Therefore, stable isotopes 27Al and 24Mg play a crucial role and the MgAl cycle affecting aluminum and magnesium production has to be carefully studied. Recent surveys reveal complexities in stellar populations whose understanding may also benefit from better constraining the closure of the MgAl cycle. The 27Al(p, α)24Mg fusion reaction, a key 27Al destruction channel, is central to these scenarios. Due to uncertainties, the Trojan Horse Method is applied, allowing high-precision spectroscopy on the compound nucleus 28Si. It reveals crucial fusion cross section information in the astrophysically relevant energy range. The indirect measurement by means of the 2H(27Al,α24Mg)n process made it possible to assess the contribution of the 84.3 keV resonance and to set upper limits on nearby resonances. This study evaluates the THM recommended rate's impact on intermediate-mass asymptotic giant branch stars, showing a notable increase in surface aluminum abundance at lower masses due to fusion cross section modification, while 24Mg remains largely unaffected. [ABSTRACT FROM AUTHOR]

Published

2024

2. Measurement of the 27Al(p, α)24Mg fusion reaction at astrophysical energies via the Trojan Horse Method

Author

La Cognata M., Palmerini S., Adsley P., Hammache F., Di Pietro A., Figuera P., Dell ’Agli F., Alba R., Cherubini S., Guardo G.L., Gulino M., Lamia L., Lattuada D., Maiolino C., Oliva A., Pizzone R.G., Prajapati P., Rapisarda G.G., Romano S., Santonocito D., Spartà R., Sergi M.L., Tumino A., and Ventura P.

Subjects

Physics, QC1-999

Abstract

In astrophysics, the abundance of 26Al is essential for understanding nucleosynthesis in the Milky Way and Galactic core-collapse supernovae rates. Detection methods involve γ-ray lines and comparing 26Mg overabundance with the common Mg isotope in meteorites. Therefore, stable isotopes 27Al and 24Mg play a crucial role and the MgAl cycle affecting aluminum and magnesium production has to be carefully studied. Recent surveys reveal complexities in stellar populations whose understanding may also benefit from better constraining the closure of the MgAl cycle. The 27Al(p, α)24Mg fusion reaction, a key 27Al destruction channel, is central to these scenarios. Due to uncertainties, the Trojan Horse Method is applied, allowing high-precision spectroscopy on the compound nucleus 28Si. It reveals crucial fusion cross section information in the astrophysically relevant energy range. The indirect measurement by means of the 2H(27Al,α24Mg)n process made it possible to assess the contribution of the 84.3 keV resonance and to set upper limits on nearby resonances. This study evaluates the THM recommended rate’s impact on intermediate-mass asymptotic giant branch stars, showing a notable increase in surface aluminum abundance at lower masses due to fusion cross section modification, while 24Mg remains largely unaffected.

Published

2024

3. Preface

Author

Pizzone R.G., Guardo G.L., La Cognata M., Prajapati P.M., Suryanarayana S.V., and Sivarani T.

Subjects

Physics, QC1-999

Published

2024

4. Erratum to: Astrophysical S factor and reaction rate of 92,94Mo(p, ɣ) relevant to the p-process

Author

Hingu Akash, Prajapati P.M., Mukherjee S., Pizzone R.G., and Katovsky K.

Subjects

Physics, QC1-999

Published

2023

5. Determination of the 3He(α, γ)7Be and 6Li(p, γ)7Be astrophysical factors down to zero energy using the asymptotic normalization coefficients

Author

La Cognata M., Kiss G. G., Yarmukhamedov R., Tursunmakhatov K. I., Wiedenhöver I., Baby L. T., Cherubini S., Cvetinović A., D’Agata G., Figuera P., Guardo G.L., Gulino M., Hayakawa S., Indelicato I., Lamia L., Lattuada M., Mudò F., Palmerini S., Pizzone R.G., Rapisarda G.G., Romano S., Sergi M. L., Spartà R., Spitaleri C., Trippella O., Tumino A., Anastasiou M., Kuvin S. A., Rijal N., Schmidt B., Igamov S. B., Sakuta S. B., Fülöp Zs., Gyürky Gy., Szücs T., Halász Z., Somorjai E., Hons Z., Mrázek J., Tribble R. E., and Mukhamedzhanov A. M.

Subjects

Physics, QC1-999

Abstract

The p - p-chain reaction 3He(α, γ)7Be can sensitively influence the prediction of the 7Be and 8B neutrino fluxes. Despite its importance, the knowledge of its reaction cross section at energies of the core of the Sun (15 keV 30 keV) is limited and the accuracy far from the desired 3% level. In the present paper the indirect measurement of the external capture contribution using the asymptotic normalization coefficient (ANC) technique is reported. The angular distributions of deuterons emitted in the 6Li(3He,d)7Be α-transfer reactions were measured and the ANCs extracted from the scaling of distorted-wave Born approximation (DWBA) and coupled-channel (CC) calculations. Then, the astrophysical S-factor for the 3He(α, γ)7Be reaction was calculated assuming E1 direct capture and the zero energy value turned out to be 0.534 0.025 keVb. Both our experimental and theoretical approaches were benchmarked through the analysis of the 6Li(p,γ)7Be astrophysical factor, with interesting astrophysical applications to the understanding of the primordial lithium problem. In particular, the present work disfavors the occurrence of a claimed 200 keV resonance in the astrophysical factor.

Published

2023

6. Study of the 12C +16 O fusion reaction in carbon burning via the Trojan Horse Method

Author

Oliva A. A., Tumino A., Soic N., Prajapati P. M., Acosta L., Alba R., Barba F., Cherubini S., D’Agata G., Dell’Aquila D., Di Pietro A., Fernandez J.P., Figuera P., Galaviz Redondo D., Guardo L., Gulino M., Hammache F., Jelavic Malenica D., Kiliç A.I., La Cognata M., La Commara M., Lamia L., Lattuada D., Maiolino C., Manicò G., Mazzocco M., Milin M., Nanru Ma, Nurmukhanbetova A., Nurkic D., Palmerini S., Parascandolo T., Pierroutsakou D., Pizzone R.G., Popocovski R., Rapisarda G.G., Romano S., Santonocito D., Sergi M.L., Shotter A., Spartà R., Spiridon A., Trache L., Vukman N., and Yamaguchi H.

Subjects

Physics, QC1-999

Abstract

12C +12 C is the main reaction during core and shell carbon burning in massive stars, however, at temperatures higher than 109K when most of the carbon is depleted and its abundance is lower than 16O, the 12C +16 O fusion can also become relevant. Moreover, 12C +16 O reaction can ignite also in the scenario of explosive carbon burning. The astrophysical energy region of interest thus ranges from 3 to 7.2 MeV in the center-of-mass frame. There are various measurements of the cross-section available in the literature, however, they all stop around 4 MeV, making extrapolation necessary at lower energies. To try to solve this uncertainty and corroborate direct measurement the Trojan Horse Method was applied to three-body processes 16O(14N, α24Mg)2H and 16O(14N, p27Al)2H to study the 16O(12C, α)24Mg and 16O(12C, p)27Al reactions.

Published

2023

7. The long-standing connection of BBN and Indirect measurements: The 3He(n,p)3H reaction at Big Bang energies

Author

Pizzone R.G. and Spampinato C.

Subjects

Physics, QC1-999

Abstract

Nuclear reactions play a key role in the framework of the Big Bang Nucleosynthesis. A network of 12 principal reactions has been identified as the main path which drives the elemental nucleosynthesis in the first twenty minutes of the history of the Universe. Among them an important role is played by neutron-induced reactions, which, from an experimental point of view, are usually a hard task to be measured directly. Nevertheless big efforts in the last decades have led to a better understanding of their role in the primordial nucleosynthesis network. In this work we apply the Trojan Horse Method to extract the cross section at astrophysical energies for the 3He(n,p)3H reaction after a detailed study of the 2H(3He,pt)H three–body process. The experiment was performed using the 3He beam, delivered at a total kinetic energy of 9 MeV by the Tandem at the Physics and Astronomy Department of the University of Notre Dame. Data extracted from the present measurement are compared with other published sets available in literature. Astrophysical applications will also be discussed in details.

Published

2023

8. Preface

Author

Lamia L. and Pizzone R.G.

Subjects

Physics, QC1-999

Published

2023

9. Astrophysical S factor and reaction rate of 92,94Mo(p, γ) relevant to the p-process

Author

Hingu Akash, Prajapati P.M., Mukherjee S., Pizzone R.G., and Katovsky K.

Subjects

Physics, QC1-999

Abstract

Abstract. Low energy proton capture cross sections on heavy isotopes are necessary for a better understanding of the astrophysical p-process. There are around 35 proton-rich stable isotopes between 74S e and 196Hg which are bypassed by the s- and r- processes. These are commonly referred as p-nuclei whose origin is still not completely understood. In the present study, proton capture reactions are studied on Mo isotopes at astrophysically relevant energies using nuclear modular code TALYS. Astrophysical S factor and reaction rates are also calculated inside a core-collapse supernova. The obtained results are compared with the literature data taken from EXFOR data library. In addition, the effect of different combinations of the nuclear input parameters entering the stellar reaction rate have been investigated.

Published

2023

10. 13C(α,n)16O: The Source of Neutrons for the s-process main component

Author

Prajapati P.M., Qureshi Mahin, Hingu A., Pizzone R.G., La Cognata M., Suryanarayna S.V., Shet Sachin, and Mukherjee S.

Subjects

Physics, QC1-999

Abstract

The 13C(α, n)16O reaction operates in the He intershell of low-mass(M < 4 M⊙) AGB stars and it is the neutron source that allows the creation of the main component of the s-process elements. The reaction rate is then required to be well known in the energy range of astrophysical interest. Therefore, the 13C(α, n)16O reaction rate has been calculated in stellar like conditions using a nuclear-model based computer code TALYS. The results have been compared with available literature data and found to be in good agreement with experimental data and, evaluated data NACRE II as well.

Published

2023

11. RIB induced reactions: Studying astrophysical reactions with low-energy RI beam at CRIB

Author

Yamaguchi H., Hayakawa S., Ma N.R., Shimizu H., Okawa K., Zhang Q., Yang L., Kahl D., La Cognata M., Lamia L., Abe K., Beliuskina O., Cha S.M., Chae K.Y., Cherubini S., Figuera P., Ge Z., Gulino M., Hu J., Inoue A., Iwasa N., Kim A., Kim D., Kiss G., Kubono S., La Commara M., Lattuada M., Lee E.J., Moon J.Y., Palmerini S., Parascandolo C., Park S.Y., Phong V.H., Pierroutsakou D., Pizzone R.G., Rapisarda G.G., Romano S., Spitaleri C., Tang X.D., Trippella O., Tumino A., Zhang N.T., Lam Y.H., Heger A., Jacobs A.M., Xu S.W., Ma S.B., Ru L.H., Liu E.Q., Liu T., Hamill C.B., Murphy A. St J., Su J., Fang X., Kwag M.S., Duy N.N., Uyen N.K., Kim D.H., Liang J., Psaltis A., Sferrazza M., Johnston Z., and Li Y.Y.

Subjects

Physics, QC1-999

Abstract

Astrophysical reactions involving radioactive isotopes (RI) often play an important role in high-temperature stellar environments. The experimental studies on the reaction rates for those are still limited mainly due to the technical difficulties in producing high-quality RI beams. A direct measurement of those reactions would be still challenging in many cases, however, we can make a reliable evaluation of the reaction rates by an indirect method or by studying the resonance prorerties. Here we ntroduce recent examples of experimental studies on such RI-involving astrophysical reactions, performed at Center for Nuclear Study, the University of Tokyo, using the low-energy RI beam separator CRIB. One is for the neutron-induced destruction reactions of 7Be in the Big-Bang nucleosynthesis, and the other is the study on the 22Mg(α, p) reaction relevant in X-ray bursts, which was performed with the resonant scattering method from the inverse reaction channel.

Published

2023

12. The 12C +16 O fusion reaction in carbon burning: Study at energies of astrophysical interest using the Trojan Horse Method

Author

Oliva A.A., Tumino A., Soic N., Prajapati M.P., Acosta L., Alba R., Barba F., Cherubini S., D’Agata G., Dell’Aquila D., Di Pietro A., Fernandez P.J., Figuera P., Galaviz Redondo D., Guardo L., Gulino M., Hammache F., Jelavic Malenica D., Kiliç A.I., La Cognata M., La Commara M., Lamia L., Lattuada D., Maiolino C., Manicò G., Mazzocco M., Milin M., Nanru Ma, Nurmukhanbetova A., Nurkic D., Palmerini S., Parascandolo T., Pierroutsakou D., Pizzone R.G., Popocovski R., Rapisarda G.G., Romano S., Santonocito D., Sergi M.L., Shotter A., Spartà R., Spiridon A., Trache L., Vukman N., and Yamaguchi H.

Subjects

Physics, QC1-999

Abstract

The carbon-burning process in massive stars mainly occurs via the 12C +12 C. However, at temperatures higher than 109K and considering the increased abundance of 16O produced during the later stages of the heliumburning,the 12C+16O fusion can also become relevant. Moreover, 12C+16O also plays a role in the scenario of explosive carbon burning. Thus, the astrophysical energy region of interest ranges from 3 to 7.2 MeV in the center-of-mass frame. However, the various measurements of the cross-section available in the literature stop around 4 MeV, making extrapolation necessary. To solve this uncertainty and corroborate direct measurement we applied the Trojan Horse Method to three-body processes 16O(14N, α24Mg)2H and 16O(14N, p27Al)2H to study the 12C(16O, α)24Mg and 12C(16O, p)27Al reactions in their entire energy region of astrophysical interest. In this contribution, after briefly describing the method used, the experiment and the preliminary phases of the data analysis will be presented and discussed.

Published

2023

13. Investigation of Compton scattering for gamma beam intensity measurements and perspectives at ELI-NP

Author

Turturica, G.V., Matei, C., Pappalardo, A., Balabanski, D.L., Chesnevskaya, S., Iancu, V., Ur, C.A., Karwowski, H.J., Chipps, K.A., Febbraro, M.T., Pain, S.D., Walter, D., Diget, C.Aa., Frost-Schenk, J., Munch, M., Guardo, G.L., La Cognata, M., Pizzone, R.G., Rapisarda, G.G., Chae, K.Y., Kim, M.J., and Kwag, M.S.

Published

2019

14. First measurement of 25Al+p resonant scattering relevant to the astrophysical reaction 22Mg(α,p)25Al

Author

Hu J., Yamaguchi H., Lam Y.H., Heger A., Kahl D., Jacobs A.M., Johnston Z., Xu S.W., Zhang N.T., Ma S.B., Ru L.H., Liu E.Q., Liu T., Hayakawa S., Yang L., Shimizu H., Hamill C.B., Murphy A. StJ., Su J., Fang X., Chae K.Y., Kwag M.S., Cha S.M., Duy N.N., Uyen N.K., Kim D.H., Pizzone R.G., La Cognata M., Cherubini S., Romano S., Tumino A., Liang J., Psaltis A., Sferrazza M., Kim D., Li Y.Y., and Kubono S.

Subjects

Physics, QC1-999

Abstract

Type I X-ray bursts (XRBs) are the most frequently observed thermonuclear explosions in nature. The 22Mg(α,p)25Al reaction plays a critical role in XRB models. However, experimental information is insufficient to deduce a precise 22Mg(α,p)25Al reaction rate for the respective XRB temperature range. A new measurement of 25Al+p resonant scattring was performed up to the astrophysically interested energy region of 22Mg(α,p)25Al. Several resonances were observed in the excitation functions, and their level properties have been determined based on an R-matrix analysis. In particular, proton widths and spin-parities of four natural-parity resonances above the α threshold of 26Si, which can contribute the reaction rate of 22Mg(α,p)25Al, were first experimentally determined.

Published

2022

15. Experimental studies on astrophysical reactions at the low-energy RI beam separator CRIB

Author

Yamaguchi H., Hayakawa S., Ma N.R., Shimizu H., Okawa K., Yang L., Kahl D., La Cognata M., Lamia L., Abe K., Beliuskina O., Cha S.M., Chae K.Y., Cherubini S., Figuera P., Ge Z., Gulino M., Hu J., Inoue A., Iwasa N., Kim A., Kim D., Kiss G., Kubono S., La Commara M., Lattuada M., Lee E.J., Moon J.Y., Palmerini S., Parascandolo C., Park S.Y., Phong V. H., Pierroutsakou D., Pizzone R.G., Rapisarda G.G., Romano S., Spitaleri C., Tang X.D., Trippella O., Tumino A., Zhang N.T., Lam Y.H., Heger A., Jacobs A.M., Xu S.W., Ma S.B., Ru L.H., Liu E.Q., Liu T., Hamill C.B., St J. Murphy A., Su J., Fang X., Kwag M.S., Duy N.N., Uyen N.K., Kim D.H., Liang J, Psaltis A., Sferrazza M., Johnston Z., and Li Y.Y.

Subjects

Physics, QC1-999

Abstract

Experimental studies on astrophysical reactions involving radioactive isotopes (RI) often accompany technical challenges. Studies on such nuclear reactions have been conducted at the low-energy RI beam separator CRIB, operated by Center for Nuclear Study, the University of Tokyo. We discuss two cases of astrophysical reaction studies at CRIB; one is for the 7Be+n reactions which may affect the primordial 7Li abundance in the Big-Bang nucleosynthesis, and the other is for the 22Mg(α, p) reaction relevantin X-raybursts.

Published

2022

16. Electron screening in palladium

Author

Cvetinović, A., primary, Đeorđić, D., additional, Guardo, G.L., additional, Kelemen, M., additional, La Cognata, M., additional, Lamia, L., additional, Markelj, S., additional, Mikac, U., additional, Pizzone, R.G., additional, Schwarz-Selinger, T., additional, Tišma, I., additional, Vencelj, M., additional, Vesić, J., additional, and Lipoglavšek, M., additional

Published

2023

17. Astrophysical S factor and reaction rate of 92,94Mo(p,) relevant to the p-process

Author

Hingu, Akash, Prajapati, P M, Mukherjee, Surjit, Pizzone, R.G., Katovský, Karel, Hingu, Akash, Prajapati, P M, Mukherjee, Surjit, Pizzone, R.G., and Katovský, Karel

Abstract

Low energy proton capture cross sections on heavy isotopes are necessary for a better understanding of the astrophysical p-process. There are around 35 proton-rich stable isotopes between 74Se and 196Hg which are bypassed by the s-and r-processes. These are commonly referred as p-nuclei whose origin is still not completely understood. In the present study, proton capture reactions are studied on Mo isotopes at astrophysically relevant energies using nuclear modular code TALYS. Astrophysical S factor and reaction rates are also calculated inside a core-collapse supernova. The obtained results are compared with the literature data taken from EXFOR data library. In addition, the effect of different combinations of the nuclear input parameters entering the stellar reaction rate have been investigated.

Published

2023

18. Erratum to: Astrophysical S factor and reaction rate of 92,94Mo(p,) relevant to the p-process

Author

Hingu, Akash, Prajapati, P M, Mukherjee, Surjit, Pizzone, R.G., Katovský, Karel, Hingu, Akash, Prajapati, P M, Mukherjee, Surjit, Pizzone, R.G., and Katovský, Karel

Abstract

This article has no abstract. It is an Erratum to the paper: Astrophysical S factor and reaction rate of 92,94Mo(p,) relevant to the p-process

Published

2023

19. Investigating the Primordial Universe through nuclear physics.

Author

Pizzone, R.G., Spampinato, C., Sergi, M.L., Spartá, R., and Zanatta-Martinez, T.

Published

2023

20. Cluster States in Carbon Isotopes \(^{13-15}\)C Studied with the \(^{10}\mathrm {Be}+{^{9}}\mathrm {Be}\) Reactions

Author

Nurkić, D., primary, Milin, M., additional, Jelavić Malenica, D., additional, Vukman, N., additional, Vidović, N., additional, Soić, N., additional, Figuera, P., additional, Di Pietro, A., additional, Cherubini, S., additional, Čolović, P., additional, Heinitz, S., additional, Lamia, L., additional, Maugeri, E.A., additional, Pizzone, R.G., additional, Romano, S., additional, Schumann, D., additional, Spitaleri, C., additional, Tumino, A., additional, and Uroić, M., additional

Published

2023

21. Electron screening in palladium

Author

Cvetinović, A., Đeorđić, D., Guardo, G.L., Kelemen, M., La Cognata, M., Lamia, L., Markelj, S., Mikac, U., Pizzone, R.G., Schwarz-Selinger, T., Tišma, I., Vencelj, M., Vesić, J., and Lipoglavšek, M.

Subjects

Nuclear and High Energy Physics

Abstract

The electron screening effect was studied in the $^{1}$H($^{7}$Li,α)$^{4}$He, $^{1}$H($^{19}$F,αγ)$^{16}$O and $^{2}$H($^{19}$F,p)$^{20}$F nuclear reactions on two different hydrogen-containing palladium foils. In one of the targets we did not detect a large enhancement of the cross section due to electron screening, and in the second one we measured a high electron screening potential for all three reactions, up to an order of magnitude above the theoretical models. Contrary to the predictions given by the available theories, the data suggest that the reason behind this difference is linked to a dependence of the electron screening potential on the host's crystal lattice structure and the location of the target nuclei in the metallic lattice.

Published

2023

22. Study of the neutron induced reaction 17O(n,α)14C at astrophysical energies via the Trojan Horse Method

Author

Oliva A. A., Lamia L., Guardo G. L., Spitaleri C., Cherubini S., Cvetinovic A., D’Agata G., de Sereville N., Pietro A. Di, Figuera P., Gulino M, Hammache F, Hayakawa S., Indelicato I., Cognata M. La, Commara M. La, Lattuada D., Lattuada M., Manico G., Mazzocco M., Messina S., Palmerini S., Pizzone R.G., Pumo M.L., Rapisarda G.G., Romano S., Sergi M.L., Soic N., Spartà R., and Tumino A.

Subjects

Physics, QC1-999

Abstract

Neutron induced reactions are fundamental for the nucleosynthesis of elements in the universe. Indeed, to correctly study the reactions involved in the well-known s-process in stars, which produce about half of the elements beyond the iron peak, it is mandatory to know the neutron abundance available in those stars. The 17O(n, a)14C reaction is one of the so-called “neutron poisons” for the pro- cess and it could play an important role in the balance of the neutron abundance. The reaction is therefore investigated in the energy range of astrophysical inter- est between 0 and 350 keV in the center of mass by applying the Trojan Horse Method to the three body reaction 2H(17O, a14C)H.

Published

2020

23. Preface

Author

Spitaleri C., La Cognata M., Lamia L., Pizzone R.G., and Romano S.

Subjects

Physics, QC1-999

Published

2020

24. Study of 3He(n,p)3H reaction at cosmological energies with trojan horse method

Author

Spampinato C., Pizzone R.G., Spartà R., Couder M., Tan W., Burian V., Chae K.Y., D’Agata G., Guardo G.L., Indelicato I., Cognata M. La, Lamia L., Lattuada D., Mrazek J., Oliva A., Palmerini S., Prajapati P.M., Rapisarda G.G., Romano S., Sergi M.L., Spitaleri C., Tumino A., Wiescher M., Anguilar S., Bardyan D., Blankstein D., Boccioli L., Callahan L., Clark A., Frentz B., Hall M., Gula A., Henderson S., Kelmar R., Liu Q., Long J., Majumdar A., McGuinness S., Nelson A., O’Malley P., Seyymour C., Skulski M., and Wilkinson J.

Subjects

Physics, QC1-999

Abstract

In the network of reactions present in the Big Bang nucleosynthesis, the 3He(n, p)3H has an important role which impacts the final 7Li abundance. The Trojan Horse Method (THM) has been applied to the 3He(d, pt)H reaction in order to extract the astrophysical S(E)-factor of the 3He(n, p)3H in the Gamow energy range. The experiment will be described in the present work together with the first preliminary results.

Published

2020

25. The long-standing connection of BBN and Indirect measurements: The 3He(n,p)3H reaction at Big Bang energies.

Author

Pizzone, R.G. and Spampinato, C.

Subjects

*NUCLEAR reactions, *BIG bang theory, *NUCLEOSYNTHESIS, *DATA extraction, *ASTROPHYSICS

Abstract

Nuclear reactions play a key role in the framework of the Big Bang Nucleosynthesis. A network of 12 principal reactions has been identified as the main path which drives the elemental nucleosynthesis in the first twenty minutes of the history of the Universe. Among them an important role is played by neutron-induced reactions, which, from an experimental point of view, are usually a hard task to be measured directly. Nevertheless big efforts in the last decades have led to a better understanding of their role in the primordial nucleosynthesis network. In this work we apply the Trojan Horse Method to extract the cross section at astrophysical energies for the 3He(n,p)3H reaction after a detailed study of the 2H(3He,pt)H three–body process. The experiment was performed using the 3He beam, delivered at a total kinetic energy of 9 MeV by the Tandem at the Physics and Astronomy Department of the University of Notre Dame. Data extracted from the present measurement are compared with other published sets available in literature. Astrophysical applications will also be discussed in details. [ABSTRACT FROM AUTHOR]

Published

2023

26. Determination of the 3He(α, γ)7Be and 6Li(p, γ)7Be astrophysical factors down to zero energy using the asymptotic normalization coefficients.

Author

La Cognata, M., Kiss, G. G., Yarmukhamedov, R., Tursunmakhatov, K. I., Wiedenhöver, I., Baby, L. T., Cherubini, S., Cvetinović, A., D'Agata, G., Figuera, P., Guardo, G.L., Gulino, M., Hayakawa, S., Indelicato, I., Lamia, L., Lattuada, M., Mudò, F., Palmerini, S., Pizzone, R.G., and Rapisarda, G.G.

Subjects

ASTROPHYSICS, NUCLEAR astrophysics, NUCLEAR physics, NUCLEOSYNTHESIS, NEUTRINO astrophysics

Abstract

The p - p-chain reaction 3He(α, γ)7Be can sensitively influence the prediction of the 7Be and 8B neutrino fluxes. Despite its importance, the knowledge of its reaction cross section at energies of the core of the Sun (15 keV 30 keV) is limited and the accuracy far from the desired 3% level. In the present paper the indirect measurement of the external capture contribution using the asymptotic normalization coefficient (ANC) technique is reported. The angular distributions of deuterons emitted in the 6Li(3He,d)7Be α-transfer reactions were measured and the ANCs extracted from the scaling of distorted-wave Born approximation (DWBA) and coupled-channel (CC) calculations. Then, the astrophysical S-factor for the 3He(α, γ)7Be reaction was calculated assuming E1 direct capture and the zero energy value turned out to be 0.534 0.025 keVb. Both our experimental and theoretical approaches were benchmarked through the analysis of the 6Li(p,γ)7Be astrophysical factor, with interesting astrophysical applications to the understanding of the primordial lithium problem. In particular, the present work disfavors the occurrence of a claimed 200 keV resonance in the astrophysical factor. [ABSTRACT FROM AUTHOR]

Published

2023

27. 13C(α,n)16O: The Source of Neutrons for the s-process main component.

Author

Prajapati, P.M., Qureshi, Mahin, Hingu, A., Pizzone, R.G., La Cognata, M., Suryanarayna, S.V., Shet, Sachin, and Mukherjee, S.

Subjects

NEUTRON sources, NUCLEAR astrophysics, NUCLEAR models, NUCLEOSYNTHESIS, NUCLEAR reactions

Abstract

The 13C(α, n)16O reaction operates in the He intershell of low-mass(M < 4 M⊙) AGB stars and it is the neutron source that allows the creation of the main component of the s-process elements. The reaction rate is then required to be well known in the energy range of astrophysical interest. Therefore, the 13C(α, n)16O reaction rate has been calculated in stellar like conditions using a nuclear-model based computer code TALYS. The results have been compared with available literature data and found to be in good agreement with experimental data and, evaluated data NACRE II as well. [ABSTRACT FROM AUTHOR]

Published

2023

28. Exploring the astrophysical energy range of the 27Al[formula omitted]Mg reaction: A new recommended reaction rate

Author

La Cognata, M., Palmerini, S., Adsley, P., Hammache, F., Di Pietro, A., Figuera, P., Alba, R., Cherubini, S., Dell'Agli, F., Guardo, G.L., Gulino, M., Lamia, L., Lattuada, D., Maiolino, C., Oliva, A., Pizzone, R.G., Prajapati, P.M., Romano, S., Santonocito, D., Spartá, R., Sergi, M.L., and Tumino, A.

Published

2022

29. Exploring the astrophysical energy range of the 27Al(p,α)24Mg reaction: A new recommended reaction rate

Author

La Cognata, M., primary, Palmerini, S., additional, Adsley, P., additional, Hammache, F., additional, Di Pietro, A., additional, Figuera, P., additional, Alba, R., additional, Cherubini, S., additional, Dell'Agli, F., additional, Guardo, G.L., additional, Gulino, M., additional, Lamia, L., additional, Lattuada, D., additional, Maiolino, C., additional, Oliva, A., additional, Pizzone, R.G., additional, Prajapati, P.M., additional, Romano, S., additional, Santonocito, D., additional, Spartá, R., additional, Sergi, M.L., additional, and Tumino, A., additional

Published

2022

30. Experimental study of the $^{30}$Si($^{3}$He,$d$)$^{31}$P reaction and thermonuclear reaction rate of $^{30}$Si($p$,$\gamma$)$^{31}$P

Author

Harrouz, D.S., de Séréville, N., Adsley, P., Hammache, F., Longland, R., Bastin, B., Faestermann, T., Hertenberger, R., La Cognata, M., Lamia, L., Meyer, A., Palmerini, S., Pizzone, R.G., Romano, S., Tumino, A., Wirth, H.-F., Laboratoire de Physique des 2 Infinis Irène Joliot-Curie (IJCLab), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Grand Accélérateur National d'Ions Lourds (GANIL), and Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)

Subjects

[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph], Nuclear Experiment, Astrophysics - Astrophysics of Galaxies

Abstract

International audience; [Background] Abundance anomalies in some globular clusters, such as the enhancement of potassium and the depletion of magnesium, can be explained in terms of an earlier generation of stars polluting the presently observed ones. It was shown that the potential range of temperatures and densities of the polluting sites depends on the strength of a few number of critical reaction rates. The reaction has been identified as one of these important reactions. [Purpose] The key ingredient for evaluating the thermonuclear reaction rate is the strength of the resonances which, at low energy, are proportional to their proton width. Therefore the goal of this work is to determine the proton widths of unbound 31P states. [Method] States in 31P were studied at the Maier-Leibnitz-Laboratorium using the one-proton transfer reaction. Deuterons were detected with the Q3D magnetic spectrometer. Angular distribution and spectroscopic factors were extracted for 27 states, and proton widths and resonance strengths were calculated for the unbound states. [Results] Several unbound states have been observed for the first time in a one-proton transfer reaction. Above 20 MK, the reaction rate is now entirely estimated from the observed properties of states. The reaction rate uncertainty from all resonances other than the resonance has been reduced down to less than a factor of two above that temperature. The unknown spin and parity of the resonance dominates the uncertainty in the rate in the relevant temperature range. [Conclusion] The remaining source of uncertainty on the reaction rate comes from the unknown spin and parity of the resonance which can change the reaction rate by a factor of ten in the temperature range of interest.

Published

2022

31. The α-decay of the Hoyle state in 12C: a new high-precision investigation

Author

Dell‘Aquila D., Lombardo I., Verde G., Vigilante M., Acosta L., Agodi C., Cappuzzello F., Carbone D., Cavallaro M., Cherubini S., Cvetinovic A., D‘Agata G., Francalanza L., Guardo G.L., Gulino M., Indelicato I., La Cognata M., Lamia L., Ordine A., Pizzone R.G., Puglia S.M.R., Rapisarda G.G., Romano S., Santagati G., Spartà R., Spadaccini G., Spitaleri C., and Tumino A.

Subjects

Physics, QC1-999

Abstract

The αdecay path of the Hoyle state in 12C (Ex = 7:654MeV) represents one ofthe most challenging questions of modern nuclear physics. Its knowledge can help in theunderstanding of cluster configurations in light nuclei and the possible existence of Bose-Einstein condensates in nuclei. In stars, it is involved in the so-called 3αprocess, wherethe 12C nucleosynthesis occurs. We studied the 14N(d; α2)12C(7:654) reaction at 10:5MeVincident energy to probe its direct decay component. We found, with a precision higherof a factor 5 than any other previous experiment, an almost total absence of direct decaysby-passing the ground state of 8Be. From our analysis, a new upper limit of such decayis found at 0:043% (95% C.L.). Astrophysical 3α process reaction rate calculations haveto be accordingly revised.

Published

2018

32. 26Mg target for nuclear astrophysics measurements

Author

Siváček I., Mrázek J., Kroha V., Burjan V., Glagolev V., Piskoř Š., Spitaleri C., Pizzone R.G., La Cognata M., D’Agata G., Tumino A., Lamia L., Spartá R., Rapisard G.G., and Romano S.

Subjects

Physics, QC1-999

Abstract

Two nuclear reactions of astrophysical interest, 26Mg(3He,d)27Al and 26Mg(d,p)27Mg, were measured for extraction of the Asymptotic Normalization Coefficients. Investigation of the target composition is presented, as well as the effects that showed up during analysis of the in-beam data obtained on CANAM accelerators in the Nuclear Physics Institute of the Czech Academy of Sciences (NPI CAS).

Published

2018

33. A Geant4-based Monte Carlo Tool for Nuclear Astrophysics

Author

Lattuada D., La Cognata M., Anzalone A., Balabanski D.L., Chesnevskaya S., Costa M., Crucillà V., Guardo G.L., Gulino M., Matei C., Pizzone R.G., Romano S., Spitaleri C., Tumino A., and Xu Y

Subjects

Physics, QC1-999

Abstract

Present and future gamma-beam facilities represent a great opportunity to validate and evaluate the cross-sections of many photonuclear reactions at near-threshold energies, whose data mostly come from theoretical calculations. We developed a Monte Carlo (MC) software that makes use of the validatedtracking Geant4 libraries and the n-body event generator of ROOT libraries in order to provide a fast, realiable and complete MC tool to be used for nuclear physics experiments, with a particular focus on photo-nuclear processes. We discuss the results of the MC simulations performed in order to evaluate the effects of the electromagnetic background, the straggling of the emitted particles due to the target thickness and the resolution of the silicon detectors. Finally we present the preliminary results on some nuclear reactions involved in the p-process, which will be studied with ELISSA and the GBS at ELI-NP.

Published

2018

34. Preface

Author

Spitaleri C., Lamia L., Pizzone R.G., Rapisarda G.G., and Sergi M.L.

Subjects

Physics, QC1-999

Published

2018

35. Improved information on astrophysical S-factor for the 10B(p,α0)7Be reaction using the Trojan Horse method

Author

Cvetinović A., Spitaleri C., Spartá R., Rapisarda G.G., Puglia S.M.R., La Cognata M., Cherubini S., Guardo G.L., Gulino M., Lamia L., Pizzone R.G., Romano S., Sergi M.L., and Tumino A.

Subjects

Physics, QC1-999

Abstract

The 10B(p,α0)7Be reaction has been studied by applying the Trojan Horse method to the 2H(10B,α0 7Be)n reaction. The bare-nucleus astrophysical S(E)-factor in absolute units was extracted in a wide energy range, from 2.2 MeV to 3 keV and normalized to the direct experimental data, thus allowing determination of the electron screening potential for which a value of Ue=391±74 eV was obtained.

Published

2018

36. The Texas–Edinburgh–Catania Silicon Array (TECSA): A detector for nuclear astrophysics and nuclear structure studies with rare isotope beams

Author

Roeder, B.T., McCleskey, M., Trache, L., Alharbi, A.A., Banu, A., Cherubini, S., Davinson, T., Goldberg, V.Z., Gulino, M., Pizzone, R.G., Simmons, E., Spartà, R., Spiridon, A., Spitaleri, C., Wallace, J.P., Tribble, R.E., and Woods, P.J.

Published

2011

37. Trojan Horse Method: a useful tool for electron screening effect investigation

Author

Pizzone, R.G., Spitaleri, C., Cherubini, S., La Cognata, M., Lamia, L., Romano, S., Sergi, M.L., Tumino, A., Li, C., Wen, Q., Zhou, S., Burjan, V., Kroha, V., Mrazek, J., Carlin, N., del Santo, M. Gimenez, Szanto de Toledo, A., Kubono, S., Wakabayashi, T., Yamaguchi, H., and Rolfs, C.

Published

2010

38. The 65 keV resonance in the 17O(p, α) 14N thermonuclear reaction

Author

Sergi, M.L., Spitaleri, C., Coc, A., Mukhamedzhanov, A., Burjan, S.V., Gulino, M., Hammache, F., Hons, Z., Irgaziev, B., Kiss, G.G., Kroha, V., La Cognata, M., Lamia, L., Pizzone, R.G., de Séréville, N., and Somorjai, E.

Published

2010

39. Indirect study of 11B(p, [formula omitted]) 8Be and 10B(p, α) 7Be reactions at astrophysical energies by means of the Trojan Horse Method: recent results

Author

Lamia, L., Puglia, S.M.R., Spitaleri, C., Romano, S., Del Santo, M. Gimenez, Carlin, N., Munhoz, M. Gameiro, Cherubini, S., Kiss, G.G., Kroha, V., Kubono, S., La Cognata, M., Li, Cheng-Bo, Pizzone, R.G., Wen, Qun-Gang, Sergi, M.L., Szanto de Toledo, A., Wakabayashi, Y., Yamaguchi, H., and Zhou, Shu-Hua

Published

2010

40. DWBA momentum distribution and its effect on THM

Author

La Cognata, M., Spitaleri, C., Mukhamedzhanov, A., Goldberg, V., Irgaziev, B., Lamia, L., Pizzone, R.G., Sergi, M.L., and Tribble, R.E.

Published

2010

41. Trojan Horse Method: recent applications in nuclear astrophysics

Author

Spitaleri, C., Cherubini, S., La Cognata, M., Lamia, L., Mukhamedzhanov, A., Pizzone, R.G., Romano, S., Sergi, M.L., and Tumino, A.

Published

2010

42. The Trojan Horse Method for nuclear astrophysics and its recent applications

Author

Lamia L., Spitaleri C., Mazzocco M., Boiano A., Boiano C., Broggini C., Caciolli A., Depalo R., Di Pietro A., Figuera P., Galtarossa F., Guardo G.L., Gulino M., Hayakawa S., Kubono S., La Cognata M., La Commara M., La Rana G., Lattuada M., Menegazzo R., Pakou A., Parascandolo C., Piatti D., Pierroutsakou D., Pizzone R.G., Puglia S.M.R., Romano S., Rapisarda G.G., Sanchez-Benitez A.M., Sergi M.L., Sgouros O., Silva H., Soramel F., Soukeras V., Strano E., Torresi D., Trippella O., Tumino A., Yamaguchi H., Villante F.L., and Zhang G.L.

Subjects

Physics, QC1-999

Abstract

The Trojan Horse Method (THM) has been applied extensively for the last 25 years to measure nuclear reaction cross sections of interest for astrophysics. Although it has been mainly applied for charged particle-induced reactions, recently it has been found to have also a relevant role for neutron-induced reactions. Here, some advantages of THM will be discussed and the preliminary results of the cosmological relevant 7Be(n,α)4He cross section measurement are discussed.

Published

2017

43. Fusion reactions induced by radioactive beams: the 18F(p,α)15O case

Author

Pizzone R.G, Roeder B.T., Trache L., Tribble R.E., Spitaleri C., Cherubini S., Gulino M., Indelicato I., La Cognata M., Lamia L., Rapisarda G.G., and Spartá R.

Subjects

Physics, QC1-999

Abstract

Gamma ray astronomy has made big strides in the last decades paving the way to a better understanding of explosive nucleosynthesis. In particular, crucial information on novae nucleosynthesis is linked to the abundance of the 18F isotope, which might be detected in explosive environments. Therefore, the reaction network producing and destroying this radioactive isotope has been extensively studied in the last years. Among those reactions, the 18F(p,α)15O cross section has been measured by means of several dedicated experiments, both using direct and indirect methods. The presence of resonances in the energy region of astrophysical interest has been reported by many authors. In the present work a report on a recent experiment performed via the Trojan Horse Method (THM) at the Texas A&M Cyclotron Institute is presented and the results are given and compared with the ones known in the literature, both direct and indirect. Data arising from THM measurements are then averaged and the reaction rate calculated in the novae energy range. Hints on future astrophysical applications will also be given.

Published

2017

44. A new high-precision upper limit of direct α-decays from the Hoyle state in 12C

Author

Dell’Aquila D., Lombardo I., Verde G., Vigilante M., Acosta L., Agodi C., Cappuzzello F., Carbone D., Cavallaro M., Cherubini S., Cvetinovic A., D’Agata G., Francalanza L., Guardo G.L., Gulino M., Indelicato I., La Cognata M., Lamia L., Ordine A., Pizzone R.G., Puglia S.M.R., Rapisarda G.G., Romano S., Santagati G., Spartà R., Spadaccini G., Spitaleri C., and Tumino A.

Subjects

Physics, QC1-999

Abstract

The Hoyle state in 12C(Ex = 7.654MeV) is characterized by a pronounced 3α cluster configuration. It is involved in the so-called 3α process in stars, that is responsible of 12C nucleosynthesis. We studied the decay path of the Hoyle state by using the 14N(d, α2)12C(7.654) reaction at 10.5MeV incident energy. We found, with a precision higher of a factor 5 than any other previous experiment, an almost total absence of direct decays by-passing the ground state of 8Be. A new upper limit of such a decay width is placed at 0.043% (95% C.L.). Astrophysical 3α process reaction rate calculations have to be consequently revised.

Published

2017

45. Astrophysical S factor and reaction rate of 92,94Mo(p, γ) relevant to the p-process.

Author

Hingu, Akash, Prajapati, P.M., Mukherjee, S., Pizzone, R.G., and Katovsky, K.

Subjects

ASTROPHYSICS, NUCLEAR reactions, STABLE isotopes, PROTON capture, NUCLEOSYNTHESIS

Abstract

Abstract. Low energy proton capture cross sections on heavy isotopes are necessary for a better understanding of the astrophysical p-process. There are around 35 proton-rich stable isotopes between 74S e and 196Hg which are bypassed by the s- and r- processes. These are commonly referred as p-nuclei whose origin is still not completely understood. In the present study, proton capture reactions are studied on Mo isotopes at astrophysically relevant energies using nuclear modular code TALYS. Astrophysical S factor and reaction rates are also calculated inside a core-collapse supernova. The obtained results are compared with the literature data taken from EXFOR data library. In addition, the effect of different combinations of the nuclear input parameters entering the stellar reaction rate have been investigated. [ABSTRACT FROM AUTHOR]

Published

2023

46. Astrophysical S-factor for the 3He(α,γ)7Be reaction via the asymptotic normalization coefficient (ANC) method

Author

Kiss, G.G., La Cognata, M., Spitaleri, C., Yarmukhamedov, R., Wiedenhöver, I., Baby, L.T., Cherubini, S., Cvetinović, A., D'Agata, G., Figuera, P., Guardo, G.L., Gulino, M., Hayakawa, S., Indelicato, I., Lamia, L., Lattuada, M., Mudò, F., Palmerini, S., Pizzone, R.G., Rapisarda, G.G., Romano, S., Sergi, M.L., Spartà, R., Trippella, O., Tumino, A., Anastasiou, M., Kuvin, S.A., Rijal, N., Schmidt, B., Igamov, S.B., Sakuta, S.B., Tursunmakhatov, K.I., Fülöp, Zs., Gyürky, Gy., Szücs, T., Halász, Z., Somorjai, E., Hons, Z., Mrázek, J., Tribble, R.E., and Mukhamedzhanov, A.M.

Published

2020

47. The 12C(12C,α)20Ne and 12C(12C,p)23Na reactions at the Gamow peak via the Trojan Horse Method

Author

Tumino A., Spitaleri C., Cherubini S., Guardo L., Gulino M., Indelicato I., La Cognata M., Lamia L., Pizzone R.G., Puglia S.M.R., Rapisarda G.G., Romano S., Sergi M.L., and Spartá R.

Subjects

Physics, QC1-999

Abstract

A measurement of the 12C(14N,α20Ne)2H and 12C(14N,p23Na)2Hreactions has been performed at a 14N beam energy of 30.0 MeV. The experiment aims to explore the extent to which contributing 24Mg excited states can be populated in the quasi-free reaction off the deuteron in 14N. In particular, the 24Mg excitation region explored in the measurement plays a key role in stellar carbon burning whose cross section is commonly determined by extrapolating high-energy fusion data. From preliminary results, α and proton channels are clearly identified. In particular, ground and first excited states of 20Ne and 23Na play a major role.

Published

2016

48. Primordial nucleosynthesis revisited via Trojan Horse Results

Author

Pizzone R.G., Spartá R., Bertulani C., Spitaleri C., La Cognata M., Lamia L., Mukhamedzhanov A., and Tumino A.

Subjects

Physics, QC1-999

Abstract

Big Bang Nucleosynthesis (BBN) requires several nuclear physics inputs and nuclear reaction rates. An up-to-date compilation of direct cross sections of d(d,p)t, d(d,n)3He and 3He(d,p)4He reactions is given, being these ones among the most uncertain bare-nucleus cross sections. An intense experimental effort has been carried on in the last decade to apply the Trojan Horse Method (THM) to study reactions of relevance for the BBN and measure their astrophysical S(E)-factor. The reaction rates and the relative error for the four reactions of interest are then numerically calculated in the temperature ranges of relevance for BBN (0.01

Published

2016

49. The Trojan Horse Method as a tool for investigating astrophysically relevant fusion reactions

Author

Lamia L., Spitaleri C., Tognelli E., Degl’Innocenti S., Pizzone R.G., and Prada Moroni P.G.

Subjects

Physics, QC1-999

Abstract

The Trojan Horse Method (THM) has been largely adopted for investigating astrophysically relevant charged-particle induced reactions at Gamow energies. Indeed, THM allows one to by pass extrapolation procedures, thus overcoming this source of uncertainty. Here, the recent THM results and their impact in astrophysics are going to be discussed.

Published

2016

50. Resonance Strength Measurement at Astrophysical Energies: The 17O(p,α)14N Reaction Studied via THM

Author

Sergi M.L., Spitaleri C., La Cognata M., Lamia L., Pizzone R.G., Rapisarda G.G., Mukhamedzhanov A., Irgaziev B., Tang X.D., Wischer M., Mrazek J., and Kroha V.

Subjects

Physics, QC1-999

Abstract

In recent years, the Trojan Horse Method (THM) has been used to investigate the low-energy cross sections of proton-induced reactions on 17O nuclei, overcoming extrapolation procedures and enhancement effects due to electron screening. We will report on the indirect study of the 17O(p,α)14N reaction via the Trojan Horse Method by applying the approach developed for extracting the resonance strength of narrow resonance in the ultralow energy region. The mean value of the strengths obtained in the two measurements was calculated and compared with the direct data available in literature.

Published

2016