Your search keyword '"Lund , MV"' showing total 8 results

1. Beta-delayed proton emission from Mg-20

Author

Lund, MV, Andreyev, A, Borge, MJG, Cederkall, J, De Witte, H, Fraile, LM, Fynbo, HOU, Greenlees, PT, Harkness-Brennan, LJ, Howard, AM, Huyse, M, Jonson, B, Judson, DS, Kirsebom, OS, Konki, J, Kurcewicz, J, Lazarus, I, Lica, R, Lindberg, S, Madurga, M, Marginean, N, Marginean, R, Marroquin, I, Mihai, C, Munch, M, Nacher, E, Negret, A, Nilsson, T, Page, RD, Pascu, S, Perea, A, Pucknell, V, Rahkila, P, Rapisarda, E, Riisager, K, Rotaru, F, Sotty, C, Stanoiu, M, Tengblad, O, Turturica, A, Van Duppen, P, Vedia, V, Wadsworth, R, Warr, N, and Collaboration, IDS

Published

2016

2. Fast-timing study of the l-forbidden 1/2+ → 3/2+ M1 transition in 129Sn

Author

IDS Collaboration, Lică, R, Mach, H, Fraile, LM, Gargano, A, Borge, MJG, Mărginean, N, Sotty, CO, Vedia, V, Andreyev, AN, Benzoni, G, Bomans, P, Borcea, R, Coraggio, L, Costache, C, De Witte, H, Flavigny, F, Fynbo, H, Gaffney, LP, Greenlee, PT, Harkness-Brennan1, LJ, Huyse, M, Ibáñez, P, Judson, DS, Konki, J, Korgul, A, Kröl, T, Kurcewicz, J, Lalkovski, S, Lazarus, I, Lund, MV, Madurga, M, Mărginean, R, Marroquín, I, Mihai, C, Mihai, RE, Morales, AI, Nácher, E, Negret, A, Page, RD, Pakarinen, J, Pascu, S, Paziy, V, Perea, A, Pérez-Liva, M, Picado, E, Pucknell, V, Rapisarda, E, Rahkila, P, Rotaru, F, Swartz, JA, Tengblad, O, Van Duppen, P, Vidal, M, Wadsworth, R, Walters, WB, and Warr, N

Abstract

The levels in 129Sn populated from the β− decay of 129In isomers were investigated at the ISOLDE facility of CERN using the newly commissioned ISOLDE Decay Station (IDS). The lowest 1/2+ state and the 3/2+ ground state in 129Sn are expected to have configurations dominated by the neutron s1/2 (l=0) and d3/2 (l=2) single-particle states, respectively. Consequently, these states should be connected by a somewhat slow l-forbidden M1 transition. Using fast-timing spectroscopy we have measured the half-life of the 1/2+ 315.3-keV state, T1/2= 19(10) ps, which corresponds to a moderately fast M1 transition. Shell-model calculations using the CD-Bonn effective interaction, with standard effective charges and g factors, predict a 4-ns half-life for this level. We can reconcile the shell-model calculations to the measured T1/2 value by the renormalization of the M1 effective operator for neutron holes.

Published

2016

3. Fast-timing study of the l-forbidden 1/2(+) -> 3/2(+) M1 transition in Sn-129

Author

Lica, R, Mach, H, Fraile, LM, Gargano, A, Borge, MJG, Marginean, N, Sotty, CO, Vedia, V, Andreyev, AN, Benzoni, G, Bomans, P, Borcea, R, Coraggio, L, Costache, C, Flavigny, F, Fynbo, H, Gaffney, Liam, Greenlees, PT, Harkness-Brennan, LJ, Huyse, Mark, Ibanez, P, Judson, DS, Konki, J, Korgul, A, Kroell, T, Kurcewicz, J, Lalkovski, S, Lazarus, I, Lund, MV, Madurga, M, Marginean, R, Marroquin, I, Mihai, C, Mihai, RE, Morales, AI, Nacher, E, Negret, A, Page, RD, Pakarinen, J, Pascu, S, Paziy, V, Perea, A, Perez-Liva, M, Picado, E, Pucknell, V, Rapisarda, E, Rahkila, P, Rotaru, F, Swartz, JA, Tengblad, O, Van Duppen, Piet, Wadsworth, R, Walters, WB, and Warr, N

Abstract

© 2016 authors. Published by the American Physical Society. The levels in Sn129 populated from the β- decay of In129 isomers were investigated at the ISOLDE facility of CERN using the newly commissioned ISOLDE Decay Station (IDS). The lowest 1/2+ state and the 3/2+ ground state in Sn129 are expected to have configurations dominated by the neutron s1/2 (l=0) and d3/2 (l=2) single-particle states, respectively. Consequently, these states should be connected by a somewhat slow l-forbidden M1 transition. Using fast-timing spectroscopy we have measured the half-life of the 1/2+ 315.3-keV state, T1/2= 19(10) ps, which corresponds to a moderately fast M1 transition. Shell-model calculations using the CD-Bonn effective interaction, with standard effective charges and g factors, predict a 4-ns half-life for this level. We can reconcile the shell-model calculations to the measured T1/2 value by the renormalization of the M1 effective operator for neutron holes. We express our deep appreciation to the late Professor Henryk Mach, who was the initiator of this investigation. He was an inspiring collaborator, mentor, and leader in developing the βγ γ (t) fast-timing technique. His memory and accomplishments will always be with us. This work was partially supported by the Spanish MINECO through Projects No. FPA2012-32443, No. FPA2013-41267-P, and CPAN Consolider (Project No. CSD-2007-00042), and by Romanian IFA Grant CERN/ISOLDE. It was also partly funded by the NuPNET network FATIMA (PRI-PIMNUP-2011-1338), by FWO-Vlaanderen (Belgium), by GOA/2010/010 (BOF KU Leuven), and by the Interuniversity Attraction Poles Programme initiated by the Belgian Science PolicyOffice (BriX network P7/12). Support from Grupo de F´ısica Nuclear (GFN-UCM), Programmi di Ricerca Scientifica di Rilevante Interesse Nazionale (PRIN) Grant No. 2001024324 01302, German BMBF under Contracts No. 05P12PKFNE and No. 05P15PKCIA, the U.K. Science and Technology Facilities Council, and the European Union Seventh Framework through ENSAR (Contract No. 262010) is also acknowledged. Fasttiming electronics were provided by the Fast Timing Collaboration, the ISOLDE Decay Station collaboration, and MASTICON. ispartof: PHYSICAL REVIEW C vol:93 issue:4 status: published

Published

2016

4. Fast-timing study of the l -forbidden 12+→32+ M1 transition in Sn 129 FAST-TIMING STUDY of the l -FORBIDDEN ⋯ R. LICǎ et al

Author

LicǍ, R, Mach, H, Fraile, LM, Gargano, A, Borge, MJG, MǍrginean, N, Sotty, CO, Vedia, V, Andreyev, AN, Benzoni, G, Bomans, P, Borcea, R, Coraggio, L, Costache, C, De Witte, H, Flavigny, F, Fynbo, H, Gaffney, LP, Greenlees, PT, Harkness-Brennan, LJ, Huyse, M, Ibáñez, P, Judson, DS, Konki, J, Korgul, A, Kröll, T, Kurcewicz, J, Lalkovski, S, Lazarus, I, Lund, MV, Madurga, M, MǍrginean, R, Marroquín, I, Mihai, C, Mihai, RE, Morales, AI, Nácher, E, Negret, A, Page, RD, Pakarinen, J, Pascu, S, Paziy, V, Perea, A, Pérez-Liva, M, Picado, E, Pucknell, V, Rapisarda, E, Rahkila, P, Rotaru, F, Swartz, JA, Tengblad, O, Van Duppen, P, Vidal, M, Wadsworth, R, Walters, WB, and Warr, N

Abstract

© 2016 authors. Published by the American Physical Society.The levels in Sn129 populated from the β- decay of In129 isomers were investigated at the ISOLDE facility of CERN using the newly commissioned ISOLDE Decay Station (IDS). The lowest 12+ state and the 32+ ground state in Sn129 are expected to have configurations dominated by the neutron s12 (l=0) and d32 (l=2) single-particle states, respectively. Consequently, these states should be connected by a somewhat slow l-forbidden M1 transition. Using fast-timing spectroscopy we have measured the half-life of the 12+ 315.3-keV state, T12= 19(10) ps, which corresponds to a moderately fast M1 transition. Shell-model calculations using the CD-Bonn effective interaction, with standard effective charges and g factors, predict a 4-ns half-life for this level. We can reconcile the shell-model calculations to the measured T12 value by the renormalization of the M1 effective operator for neutron holes.

Published

2016

5. Electron capture of $^8$B into highly excited states in $^8$Be

Author

Borge , MJG, Fernández , PD, Fraile , LM, Fynbo , HOU, Heinz , A, Howard , AM, Jensen , JH, Johansen , JG, Johansson , HT, Jonson , B, Kirsebom , OS, Lindberg , S, Lund , MV, Alonso , IM, Madurga , M, Munch , M, Nacher , E, Nilsson , T, Perea , A, Refsgaard , J, Riisager , K, Tengblad , O, Thies , R, and Ulla , FJ

Subjects

Detectors and Experimental Techniques

Published

2016

6. beta decay of He-6 into the alpha plus d continuum

Author

Pfuetzner, M, Dominik, W, Janas, Z, Mazzocchi, C, Pomorski, M, Bezbakh, AA, Borge, MJG, Chrapkiewicz, K, Chudoba, V, Frederickx, Roald, Kaminski, G, Kowalska, M, Krupko, S, Kuich, M, Kurcewicz, J, Lis, AA, Lund, MV, Miernik, K, Perkowski, J, Raabe, Riccardo, Randisi, G, Riisager, K, Sambi, Sara, Tengblad, O, and Wenander, F

Abstract

The rare β-decay channel of He6 into the α+d continuum was investigated at the REX-ISOLDE facility. Bunches of postaccelerated He6 ions were implanted into the optical time projection chamber (OTPC), where the decays with emission of charged particles were recorded. This novel technique allowed us to extend the low-energy end of the spectrum down to 150 keV in α+d center of mass, corresponding to a deuteron energy of 100 keV. The branching ratio for this process amounts to [2.78±0.07(stat)±0.17(sys)]×10−6. The shape of the spectrum is found to be in a good agreement with a three-body model, while the total intensity is about 20% larger than the predicted one. ispartof: Physical Review C vol:92 issue:1 pages:1-7 status: published

Published

2015

7. Search for $\beta$-delayed protons from $^{11}$Be

Author

Becerril, A, Borge, MJG, Briz, JA, Forstner, O, Fraile, LM, Fynbo, HOU, Johansen, JS, Jonson, B, Koldste, GT, Laursen, KL, Lund, MV, Nilsson, T, Nyman, G, Riisager, K, Steier, P, and Tengblad, O

Subjects

Detectors and Experimental Techniques

Published

2012

8. First Accurate Normalization of the β-delayed α Decay of ^{16}N and Implications for the ^{12}C(α,γ)^{16}O Astrophysical Reaction Rate.

Author

Kirsebom OS, Tengblad O, Lica R, Munch M, Riisager K, Fynbo HOU, Borge MJG, Madurga M, Marroquin I, Andreyev AN, Berry TA, Christensen ER, Fernández PD, Doherty DT, Van Duppen P, Fraile LM, Gallardo MC, Greenlees PT, Harkness-Brennan LJ, Hubbard N, Huyse M, Jensen JH, Johansson H, Jonson B, Judson DS, Konki J, Lazarus I, Lund MV, Marginean N, Marginean R, Perea A, Mihai C, Negret A, Page RD, Pucknell V, Rahkila P, Sorlin O, Sotty C, Swartz JA, Sørensen HB, Törnqvist H, Vedia V, Warr N, and De Witte H

Abstract

The ^{12}C(α,γ)^{16}O reaction plays a central role in astrophysics, but its cross section at energies relevant for astrophysical applications is only poorly constrained by laboratory data. The reduced α width, γ_{11}, of the bound 1^{-} level in ^{16}O is particularly important to determine the cross section. The magnitude of γ_{11} is determined via sub-Coulomb α-transfer reactions or the β-delayed α decay of ^{16}N, but the latter approach is presently hampered by the lack of sufficiently precise data on the β-decay branching ratios. Here we report improved branching ratios for the bound 1^{-} level [b_{β,11}=(5.02±0.10)×10^{-2}] and for β-delayed α emission [b_{βα}=(1.59±0.06)×10^{-5}]. Our value for b_{βα} is 33% larger than previously held, leading to a substantial increase in γ_{11}. Our revised value for γ_{11} is in good agreement with the value obtained in α-transfer studies and the weighted average of the two gives a robust and precise determination of γ_{11}, which provides significantly improved constraints on the ^{12}C(α,γ) cross section in the energy range relevant to hydrostatic He burning.

Published

2018