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NSR database version of April 11, 2024.

Search: Author = F.Ames

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2020CR04      Phys.Rev. C 102, 024335 (2020)

S.Cruz, K.Wimmer, S.S.Bhattacharjee, P.C.Bender, G.Hackman, R.Krucken, F.Ames, C.Andreoiu, R.A.E.Austin, C.S.Bancroft, R.Braid, T.Bruhn, W.N.Catford, A.Cheeseman, A.Chester, D.S.Cross, C.Aa.Diget, T.Drake, A.B.Garnsworthy, R.Kanungo, A.Knapton, W.Korten, K.Kuhn, J.Lassen, R.Laxdal, M.Marchetto, A.Matta, D.Miller, M.Moukaddam, N.A.Orr, N.Sachmpazidi, A.Sanetullaev, C.E.Svensson, N.Terpstra, C.Unsworth, P.J.Voss

Single-particle structure in neutron-rich Sr isotopes approaching the N=60 shape transition

NUCLEAR REACTIONS ²H(⁹⁴Sr, t), (⁹⁵Sr, t), (⁹⁶Sr, t), E=5.5 MeV/nucleon, [secondary beams of Sr isotopes produced in U(p, X), E=480 MeV primary reaction, followed by separation of Sr fragments using a laser ion source at TRIUMF-ISACII facility]; measured light charged particles using the highly segmented silicon detector array (SHARC), E(t), σ(θ), Eγ, Iγ, (triton)γ- and (triton)γγ-coin using TIGRESS array of eight clover detectors. ^93,94,95Sr; deduced levels, J, π, L-transfers by DWBA analysis, spectroscopic factors, configurations. Comparison with shell-model calculations. Systematics of the excited 0+ states in ^{88,90,92,94,96,98,100}Sr.

doi: 10.1103/PhysRevC.102.024335
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Data from this article have been entered in the XUNDL database. For more information, click here.

2019CR06      Phys.Rev. C 100, 054321 (2019)

S.Cruz, K.Wimmer, P.C.Bender, R.Krucken, G.Hackman, F.Ames, C.Andreoiu, R.A.E.Austin, C.S.Bancroft, R.Braid, T.Bruhn, W.N.Catford, A.Cheeseman, A.Chester, D.S.Cross, C.Aa.Diget, T.Drake, A.B.Garnsworthy, R.Kanungo, A.Knapton, W.Korten, K.Kuhn, J.Lassen, R.Laxdal, M.Marchetto, A.Matta, D.Miller, M.Moukaddam, N.A.Orr, N.Sachmpazidi, A.Sanetullaev, C.E.Svensson, N.Terpstra, C.Unsworth, P.J.Voss

Single-particle structure of neutron-rich Sr isotopes via ²H(^{94, 95, 96}Sr, p) reactions

NUCLEAR REACTIONS ²H(⁹⁴Sr, p), (⁹⁵Sr, p), (⁹⁶Sr, p), E=5.5 MeV/nucleon, [secondary ^94,95,96Sr beams from U(p, F), E=480 MeV primary reaction and using TRIUMF RILIS for extraction of fragments]; measured recoiling light charged particles, Eγ, Iγ, angular distribution of charged particles using SHARC array of quasi-4π silicon strip detectors for particles and TIGRESS array for γ rays at TRIUMF-ISACII facility. ^95,96,97Sr; deduced levels, J, L-transfers and spectroscopic factors using distorted wave Born approximation (DWBA) and adiabatic distorted wave approximation (ADWA) analyses. Comparison with shell-model calculations using realistic effective interactions.

doi: 10.1103/PhysRevC.100.054321
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2422. Data from this article have been entered in the XUNDL database. For more information, click here.

2019VE07      Phys.Rev. C 100, 044321 (2019)

E.Verstraelen, A.Teigelhofer, W.Ryssens, F.Ames, A.Barzakh, M.Bender, R.Ferrer, S.Goriely, P.-H.Heenen, M.Huyse, P.Kunz, J.Lassen, V.Manea, S.Raeder, P.Van Duppen

Search for octupole-deformed actinium isotopes using resonance ionization spectroscopy

NUCLEAR MOMENTS ^{225,226,227,228,229}Ac; measured hyperfine spectra, and isotope shifts by probing a ²D_3/2 to ⁴P_5/2 atomic transition using in-source resonance ionization spectroscopy at the ISAC facility in TRIUMF, where the actinium isotopes were produced in irradiating UC_x with 480-MeV proton beam, and ionized by TRIUMF Resonant Ionization Laser Ion Source (TRILIS); deduced mean-square charge radii, hyperfine parameters, magnetic dipole moments, configurations; calculated β₂₀ and β₃₀ deformation parameters using SLy5s1, BSk31, and DD-MEB2 interactions. Comparison with previous experimental measurements, and with self-consistent calculations using energy density functionals SLy5s1, BSk31, and DD-MEB1. Z=82-89, N=120-150; systematics of experimental mean-square charge radii, and odd-even staggering parameter, and compared with theoretical calculations.

doi: 10.1103/PhysRevC.100.044321
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Data from this article have been entered in the XUNDL database. For more information, click here.

2018CR06      Phys.Lett. B 786, 94 (2018)

S.Cruz, P.C.Bender, R.Krucken, K.Wimmer, F.Ames, C.Andreoiu, R.A.E.Austin, C.S.Bancroft, R.Braid, T.Bruhn, W.N.Catford, A.Cheeseman, A.Chester, D.S.Cross, C.Aa.Diget, T.Drake, A.B.Garnsworthy, G.Hackman, R.Kanungo, A.Knapton, W.Korten, K.Kuhn, J.Lassen, R.Laxdal, M.Marchetto, A.Matta, D.Miller, M.Moukaddam, N.A.Orr, N.Sachmpazidi, A.Sanetullaev, C.E.Svensson, N.Terpstra, C.Unsworth, P.J.Voss

Shape coexistence and mixing of low-lying 0⁺ states in ⁹⁶Sr

NUCLEAR REACTIONS ²H(⁹⁵Sr, p), E=5.5 MeV/nucleon; measured reaction products, Eγ, Iγ. ⁹⁶Sr; deduced γ-ray energies, σ(θ), spectroscopic factors.

doi: 10.1016/j.physletb.2018.09.031
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC2382. Data from this article have been entered in the XUNDL database. For more information, click here.

2010ER02      Phys.Rev. C 81, 045808 (2010)

L.Erikson, C.Ruiz, F.Ames, P.Bricault, L.Buchmann, A.A.Chen, J.Chen, H.Dare, B.Davids, C.Davis, C.M.Deibel, M.Dombsky, S.Foubister, N.Galinski, U.Greife, U.Hager, A.Hussein, D.A.Hutcheon, J.Lassen, L.Martin, D.F.Ottewell, C.V.Ouellet, G.Ruprecht, K.Setoodehnia, A.C.Shotter, A.Teigelhofer, C.Vockenhuber, C.Wrede, A.Wallner

First direct measurement of the ²³Mg(p, γ)²⁴Al reaction

NUCLEAR REACTIONS ²³Mg(p, γ)²⁴Al, E=500 keV; measured Eγ, Iγ, γγ-, (recoil)γ-coin, (recoil)γ(t), thick target yields, resonance strengths; deduced resonance, reaction rates. DRAGON recoil spectrometer. GEANT3 simulations.

doi: 10.1103/PhysRevC.81.045808
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC1784. Data from this article have been entered in the XUNDL database. For more information, click here.

2008EK01      Phys.Rev.Lett. 101, 012502 (2008)

A.Ekstrom, J.Cederkall, C.Fahlander, M.Hjorth-Jensen, F.Ames, P.A.Butler, T.Davinson, J.Eberth, F.Fincke, A.Gorgen, M.Gorska, D.Habs, A.M.Hurst, M.Huyse, O.Ivanov, J.Iwanicki, O.Kester, U.Koster, B.A.Marsh, J.Mierzejewski, P.Reiter, H.Scheit, D.Schwalm, S.Siem, G.Sletten, I.Stefanescu, G.M.Tveten, J.Van de Walle, P.Van Duppen, D.Voulot, N.Warr, D.Weisshaar, F.Wenander, M.Zielinska

0⁺_gs → 2⁺₁ Transition Strengths in ¹⁰⁶Sn and ¹⁰⁸Sn

NUCLEAR REACTIONS ⁵⁸Ni(¹⁰⁶Sn, X), E=2.83 MeV/nucleon; ⁵⁸Ni(¹⁰⁸Sn, X), E=2.82 MeV/nucleon; measured Eγ, Iγ following coulomb excitations.^106,108Sn; deduced B(E2).

doi: 10.1103/PhysRevLett.101.012502
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Data from this article have been entered in the XUNDL database. For more information, click here.

2008RY03      Phys.Rev.Lett. 101, 012501 (2008)

V.L.Ryjkov, M.Brodeur, T.Brunner, M.Smith, R.Ringle, A.Lapierre, F.Ames, P.Bricault, M.Dombsky, P.Delheij, D.Lunney, M.R.Pearson, J.Dilling

Direct Mass Measurement of the Four-Neutron Halo Nuclide ⁸He

ATOMIC MASSES ⁸He; measured mass using a penning trap.

doi: 10.1103/PhysRevLett.101.012501
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2008SM03      Phys.Rev.Lett. 101, 202501 (2008)

M.Smith, M.Brodeur, T.Brunner, S.Ettenauer, A.Lapierre, R.Ringle, V.L.Ryjkov, F.Ames, P.Bricault, G.W.F.Drake, P.Delheij, D.Lunney, F.Sarazin, J.Dilling

First Penning-Trap Mass Measurement of the Exotic Halo Nucleus ¹¹Li

ATOMIC MASSES ¹¹Li; measured mass using a penning trap mass spectrometer.

doi: 10.1103/PhysRevLett.101.202501
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2007CE02      Phys.Rev.Lett. 98, 172501 (2007)

J.Cederkall, A.Ekstrom, C.Fahlander, A.M.Hurst, M.Hjorth-Jensen, F.Ames, A.Banu, P.A.Butler, T.Davinson, U.Datta Pramanik, J.Eberth, S.Franchoo, G.Georgiev, M.Gorska, D.Habs, M.Huyse, O.Ivanov, J.Iwanicki, O.Kester, U.Koster, B.A.Marsh, O.Niedermaier, T.Nilsson, P.Reiter, H.Scheit, D.Schwalm, T.Sieber, G.Sletten, I.Stefanescu, J.Van de Walle, P.Van Duppen, N.Warr, D.Weisshaar, F.Wenander

Sub-Barrier Coulomb Excitation of ¹¹⁰Sn and Its Implications for the ¹⁰⁰Sn Shell Closure

NUCLEAR REACTIONS ⁵⁸Ni(¹¹⁰Sn, ¹¹⁰Sn'), E=2.82 MeV/nucleon; measured Eγ, Iγ, (particle)γ-coin following Coulomb excitation. ¹¹⁰Sn deduced B(E2) of the first excited 2⁺ state. MINIBALL array at REX-ISOLDE.

doi: 10.1103/PhysRevLett.98.172501
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Data from this article have been entered in the XUNDL database. For more information, click here.

2007HU03      Phys.Rev.Lett. 98, 072501 (2007)

A.M.Hurst, P.A.Butler, D.G.Jenkins, P.Delahaye, F.Wenander, F.Ames, C.J.Barton, T.Behrens, A.Burger, J.Cederkall, E.Clement, T.Czosnyka, T.Davinson, G.de Angelis, J.Eberth, A.Ekstrom, S.Franchoo, G.Georgiev, A.Gorgen, R.-D.Herzberg, M.Huyse, O.Ivanov, J.Iwanicki, G.D.Jones, P.Kent, U.Koster, T.Kroll, R.Krucken, A.C.Larsen, M.Nespolo, M.Pantea, E.S.Paul, M.Petri, H.Scheit, T.Sieber, S.Siem, J.F.Smith, A.Steer, I.Stefanescu, N.U.H.Syed, J.Van de Walle, P.Van Duppen, R.Wadsworth, N.Warr, D.Weisshaar, M.Zielinska

Measurement of the Sign of the Spectroscopic Quadrupole Moment for the 2⁺₁ State in ⁷⁰Se: No Evidence for Oblate Shape

NUCLEAR REACTIONS ¹⁰⁴Pd(⁷⁰Se, ⁷⁰Se'), E=206 MeV; measured Eγ, Iγ, (particle)γ-coin following projectile Coulomb excitation. ⁷⁰Se deduced prolate deformation.

doi: 10.1103/PhysRevLett.98.072501
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Data from this article have been entered in the XUNDL database. For more information, click here.

2007ST03      Phys.Rev.Lett. 98, 122701 (2007)

I.Stefanescu, G.Georgiev, F.Ames, J.Aysto, D.L.Balabanski, G.Bollen, P.A.Butler, J.Cederkall, N.Champault, T.Davinson, A.De Maesschalck, P.Delahaye, J.Eberth, D.Fedorov, V.N.Fedosseev, L.M.Fraile, S.Franchoo, K.Gladnishki, D.Habs, K.Heyde, M.Huyse, O.Ivanov, J.Iwanicki, J.Jolie, B.Jonson, Th.Kroll, R.Krucken, O.Kester, U.Koster, A.Lagoyannis, L.Liljeby, G.Lo Bianco, B.A.Marsh, O.Niedermaier, T.Nilsson, M.Oinonen, G.Pascovici, P.Reiter, A.Saltarelli, H.Scheit, D.Schwalm, T.Sieber, N.Smirnova, J.Van De Walle, P.Van Duppen, S.Zemlyanoi, N.Warr, D.Weisshaar, F.Wenander

Coulomb Excitation of ^{68, 70}Cu: First Use of Postaccelerated Isomeric Beams

NUCLEAR REACTIONS ¹²⁰Sn(⁶⁸Cu, ⁶⁸Cu'), (⁷⁰Cu, ⁷⁰Cu'), E=2.83 MeV/nucleon; measured Eγ, Iγ, (particle)γ-coin following projectile Coulomb excitation. ^68,70Cu deduced transitions B(E2). Isomeric beams, comparison with large-scale shell model calculations.

doi: 10.1103/PhysRevLett.98.122701
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Data from this article have been entered in the XUNDL database. For more information, click here.

2007VA20      Phys.Rev.Lett. 99, 142501 (2007)

J.Van de Walle, F.Aksouh, F.Ames, T.Behrens, V.Bildstein, A.Blazhev, J.Cederkall, E.Clement, T.E.Cocolios, T.Davinson, P.Delahaye, J.Eberth, A.Ekstrom, D.V.Fedorov, V.N.Fedosseev, L.M.Fraile, S.Franchoo, R.Gernhauser, G.Georgiev, D.Habs, K.Heyde, G.Huber, M.Huyse, F.Ibrahim, O.Ivanov, J.Iwanicki, J.Jolie, O.Kester, U.Koster, T.Kroll, R.Krucken, M.Lauer, A.F.Lisetskiy, R.Lutter, B.A.Marsh, P.Mayet, O.Niedermaier, T.Nilsson, M.Pantea, O.Perru, R.Raabe, P.Reiter, M.Sawicka, H.Scheit, G.Schrieder, D.Schwalm, M.D.Seliverstov, T.Sieber, G.Sletten, N.Smirnova, M.Stanoiu, I.Stefanescu, J.-C.Thomas, J.J.Valiente-Dobon, P.Van Duppen, D.Verney, D.Voulot, N.Warr, D.Weisshaar, F.Wenander, B.H.Wolf, M.Zielinska

Coulomb Excitation of Neutron-Rich Zn Isotopes: First Observation of the 2⁺₁ State in ⁸⁰Zn

NUCLEAR REACTIONS ¹⁰⁸Pd, ¹²⁰Sn(⁷⁴Zn, ⁷⁴Zn'), (⁷⁶Zn, ⁷⁶Zn'), (⁷⁸Zn, ⁷⁸Zn'), (⁸⁰Zn, ⁸⁰Zn'), E=2.79-2.87 MeV/nucleon; measured Eγ, Iγ. ^74,76,78,80Zn deduced B(E2).

doi: 10.1103/PhysRevLett.99.142501
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Data from this article have been entered in the XUNDL database. For more information, click here.

2006JE02      Phys.Lett. B 635, 17 (2006)

H.B.Jeppesen, A.M.Moro, T.Nilsson, F.Ames, P.van den Bergh, U.C.Bergmann, G.Bollen, M.J.G.Borge, J.Cederkall, P.Van Duppen, S.Emhofer, O.Forstner, L.M.Fraile, H.O.U.Fynbo, J.Gomez-Camacho, D.Habs, R.von Hahn, G.Huber, M.Huyse, H.T.Johansson, B.Jonson, O.Kester, H.Lenske, L.Liljeby, M.Meister, G.Nyman, M.Oinonen, M.Pantea, H.Podlech, U.Ratzinger, K.Reisinger, K.G.Rensfelt, R.Repnow, K.Riisager, A.Richter, K.Rudolph, H.Scheit, A.Schempp, P.Schmidt, G.Schrieder, D.Schwalm, T.Sieber, H.Simon, O.Tengblad, E.Tengborn, M.Turrion, L.Weissman, F.Wenander, B.Wolf

Investigation of the ⁹Li + ²H → ⁸Li + t reaction at REX-ISOLDE

NUCLEAR REACTIONS ²H(⁹Li, ⁸Li), E=2.36 MeV/nucleon; measured particle spectra, σ(θ). ⁸Li levels deduced energies, spectroscopic factors. Comparison with optical model calculations, post-accelerated radioactive beam.

doi: 10.1016/j.physletb.2006.02.034
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO1395.

2006TR08      Can.J.Phys. 84, 325 (2006)

M.Trinczek, S.Lapi, B.Guo, F.Ames, K.R.Buckley, J.M.D'Auria, K.Jayamanna, W.P.Liu, C.Ruiz, T.J.Ruth

Production of intense radioactive beams at ISAC using low-energy protons

NUCLEAR REACTIONS ¹⁴N(p, α), (p, n), E=13 MeV; measured yields. Application to radioactive beam production discussed.

doi: 10.1139/P06-058
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2005DE58      Eur.Phys.J. A 25, Supplement 1, 739 (2005)

P.Delahaye, F.Ames, I.Podadera, R.Savreux, F.Wenander

Recent developments of the radioactive beam preparation at REX-ISOLDE

doi: 10.1140/epjad/i2005-06-150-9
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2005NI09      Nucl.Phys. A752, 273c (2005)

O.Niedermaier, H.Scheit, V.Bildstein, H.Boie, J.Fitting, R.von Hahn, F.Kock, M.Lauer, U.K.Pal, H.Podlech, R.Repnow, D.Schwalm, C.Alvarez, F.Ames, G.Bollen, S.Emhofer, D.Habs, O.Kester, R.Lutter, K.Rudolph, M.Pasini, P.G.Thirolf, B.H.Wolf, J.Eberth, G.Gersch, H.Hess, P.Reiter, O.Thelen, N.Warr, D.Weisshaar, F.Aksouh, P.Van den Bergh, P.Van Duppen, M.Huyse, O.Ivanov, P.Mayet, J.Van de Walle, J.Aysto, P.A.Butler, J.Cederkall, P.Delahaye, H.O.U.Fynbo, L.M.Fraile, O.Forstner, S.Franchoo, U.Koster, T.Nilsson, M.Oinonen, T.Sieber, F.Wenander, M.Pantea, A.Richter, G.Schrieder, H.Simon, T.Behrens, R.Gernhauser, T.Kroll, R.Krucken, M.Munch, T.Davinson, J.Gerl, G.Huber, A.Hurst, J.Iwanicki, B.Jonson, P.Lieb, L.Liljeby, A.Schempp, A.Scherillo, P.Schmidt, G.Walter

The neutron-rich Mg isotopes: first results from MINIBALL at REX-ISOLDE

NUCLEAR REACTIONS Ni(³⁰Mg, ³⁰Mg'), E=2.25 MeV/nucleon; measured Eγ, Iγ, (particle)γ-coin following projectile Coulomb excitation. ³⁰Mg deduced transition, B(E2).

doi: 10.1016/j.nuclphysa.2005.02.071
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2005NI11      Phys.Rev.Lett. 94, 172501 (2005)

O.Niedermaier, H.Scheit, V.Bildstein, H.Boie, J.Fitting, R.von Hahn, F.Kock, M.Lauer, U.K.Pal, H.Podlech, R.Repnow, D.Schwalm, C.Alvarez, F.Ames, G.Bollen, S.Emhofer, D.Habs, O.Kester, R.Lutter, K.Rudolph, M.Pasini, P.G.Thirolf, B.H.Wolf, J.Eberth, G.Gersch, H.Hess, P.Reiter, O.Thelen, N.Warr, D.Weisshaar, F.Aksouh, P.Van den Bergh, P.Van Duppen, M.Huyse, O.Ivanov, P.Mayet, J.Van de Walle, J.Aysto, P.A.Butler, J.Cederkall, P.Delahaye, H.O.U.Fynbo, L.M.Fraile, O.Forstner, S.Franchoo, U.Koster, T.Nilsson, M.Oinonen, T.Sieber, F.Wenander, M.Pantea, A.Richter, G.Schrieder, H.Simon, T.Behrens, R.Gernhauser, T.Kroll, R.Krucken, M.Munch, T.Davinson, J.Gerl, G.Huber, A.Hurst, J.Iwanicki, B.Jonson, P.Lieb, L.Liljeby, A.Schempp, A.Scherillo, P.Schmidt, G.Walter

"Safe" Coulomb Excitation of ³⁰Mg

NUCLEAR REACTIONS Ni(³⁰Mg, ³⁰Mg'), E=2.25 MeV/nucleon; measured Eγ, Iγ, (particle)γ-coin following projectile Coulomb excitation. ³⁰Mg transition deduced B(E2).

doi: 10.1103/PhysRevLett.94.172501
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2005SC27      Eur.Phys.J. A 25, Supplement 1, 397 (2005)

H.Scheit, O.Niedermaier, V.Bildstein, H.Boie, J.Fitting, R.von Hahn, F.Kock, M.Lauer, U.K.Pal, H.Podlech, R.Repnow, D.Schwalm, C.Alvarez, F.Ames, G.Bollen, S.Emhofer, D.Habs, O.Kester, R.Lutter, K.Rudolph, M.Pasini, P.G.Thirolf, B.H.Wolf, J.Eberth, G.Gersch, H.Hess, P.Reiter, O.Thelen, N.Warr, D.Weisshaar, F.Aksouh, P.Van den Bergh, P.Van Duppen, M.Huyse, O.Ivanov, P.Mayet, J.Van de Walle, J.Aysto, P.A.Butler, J.Cederkall, P.Delahaye, H.O.U.Fynbo, L.M.Fraile, O.Forstner, S.Franchoo, U.Koster, T.Nilsson, M.Oinonen, T.Sieber, F.Wenander, M.Pantea, A.Richter, G.Schrieder, H.Simon, T.Behrens, R.Gernhauser, T.Kroll, R.Krucken, M.Munch, T.Davinson, J.Gerl, G.Huber, A.Hurst, J.Iwanicki, B.Jonson, P.Lieb, L.Liljeby, A.Schempp, A.Scherillo, P.Schmidt, G.Walter

Coulomb excitation of neutron-rich beams at REX-ISOLDE

NUCLEAR REACTIONS Ni(³⁰Mg, ³⁰Mg'), E=2.2 MeV/nucleon; measured Eγ, Iγ, (particle)γ-coin following projectile Coulomb excitation.²Hmeasured Eγ, Iγ, γγ-, (particle)γ-coin. ³⁰Mg deduced transitions B(E2). ³¹Mg deduced transitions. Miniball array.

doi: 10.1140/epjad/i2005-06-165-2
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2004CE06      Nucl.Phys. A746, 17c (2004)

J.Cederkall, F.Ames, P.Butler, P.Delahaye, V.Fedoseev, M.Lindroos, T.Nilsson, T.Sieber, F.Wenander, M.Pantea, S.Emhofer, D.Habs, O.Kester, K.Rudolph, R.von Hahn, O.Niedermaier, H.Scheit, D.Schwalm, P.van Duppen, M.Huyse, B.Jonsson, G.Nyman, J.Eberth, P.Reiter, D.Weisshaar, and the REX-ISOLDE Collaboration

REX-ISOLDE - experiences from the first year of operation

doi: 10.1016/j.nuclphysa.2004.09.014
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2004DE53      Nucl.Phys. A746, 604c (2004)

P.Delahaye, F.Ames, A.Kellerbauer

Study of the charge exchange process at low energy with REXTRAP

doi: 10.1016/j.nuclphysa.2004.09.117
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2004JE08      Nucl.Phys. A738, 511 (2004)

H.Jeppesen, F.Ames, U.C.Bergmann, M.J.G.Borge, J.Cederkall, S.Emhofer, L.M.Fraile, H.O.U.Fynbo, S.Henry, H.T.Johansson, B.Jonson, M.Meister, T.Nilsson, G.Nyman, M.Pantea, K.Riisager, A.Richter, K.Rudolph, G.Schrieder, T.Siebert, O.Tengblad, E.Tengborn, M.Turrion, R.von Hahn, F.Wenander, B.Wolf, and the ISOLDE and REX-ISOLDE Collaborations

Experimental investigation of the ⁹Li + d reaction at REX-ISOLDE

NUCLEAR REACTIONS ²H(⁹Li, p), E=2.36 MeV/nucleon; measured excitation energy spectrum. ¹⁰Li deduced excited state.

doi: 10.1016/j.nuclphysa.2004.04.099
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2003HE05      J.Phys.(London) B36, 931 (2003)

F.Herfurth, F.Ames, G.Audi, D.Beck, K.Blaum, G.Bollen, A.Kellerbauer, H.-J.Kluge, M.Kuckein, D.Lunney, R.B.Moore, M.Oinonen, D.Rodriguez, E.Sauvan, C.Scheidenberger, S.Schwarz, G.Sikler, C.Weber, and the ISOLDE Collaboration

Mass measurements and nuclear physics - recent results from ISOLTRAP

ATOMIC MASSES Z=68-89; analyzed mass data; deduced two-neutron separation energies.

doi: 10.1088/0953-4075/36/5/312
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2003LI52      Nucl.Phys. A721, 1103c (2003)

A.Lindroth, M.Beck, B.Delaure, V.Yu.Kozlov, N.Severijns, F.Ames, D.Beck, V.V.Golovko, I.Kraev, T.Phalet, S.Versyck

WITCH: Testing the Standard Model using a β-recoil Spectrometer with a Trapped Ion Cloud as Source

doi: 10.1016/S0375-9474(03)01295-8
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2002BE54      Nucl.Phys. A701, 369c (2002)

D.Beck, F.Ames, M.Beck, G.Bollen, B.Delaure, J.Deutsch, J.Dilling, O.Forstner, T.Phalet, R.Prieels, W.Quint, P.Schmidt, P.Schuurmans, N.Severijns, B.Vereecke, S.Versyck, and the EUROTRAPS Collaboration

Search for New Physics in Beta-Neutrino Correlations with the WITCH Spectrometer

doi: 10.1016/S0375-9474(01)01612-8
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2002HE23      Eur.Phys.J. A 15, 17 (2002)

F.Herfurth, A.Kellerbauer, F.Ames, G.Audi, D.Beck, K.Blaum, G.Bollen, O.Engels, H.J.Kluge, D.Lunney, R.B.Moore, M.Oinonen, E.Sauvan, C.Scheidenberger, S.Schwarz, G.Sikler, C.Weber, and the ISOLDE Collaboration

Accurate mass measurements of very short-lived nuclei: Prerequisites for high-accuracy investigations of superallowed β-decays

ATOMIC MASSES ^34,36,38Ar, ⁴¹K, ^74,76Rb, ^{73,74,75,76,77,78,80,82}Kr; measured masses. Penning-trap mass spectrometer.

doi: 10.1140/epja/i2001-10216-x
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2002SC25      Nucl.Phys. A701, 550c (2002)

P.Schmidt, F.Ames, G.Bollen, O.Forstner, G.Huber, M.Oinonen, J.Zimmer, and the REX-ISOLDE Collaboration

Bunching and Cooling of Radioactive Ions with REXTRAP

doi: 10.1016/S0375-9474(01)01642-6
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2001AM12      Hyperfine Interactions 132, 469 (2001)

F.Ames, P.Schmidt, O.Forstner, G.Bollen, O.Engels, D.Habs, G.Huber, and the REX ISOLDE Collaboration

Space-Charge Effects with REXTRAP

doi: 10.1023/A:1011922811309
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2001BE74      Hyperfine Interactions 132, 473 (2001)

D.Beck, F.Ames, M.Beck, G.Bollen, B.Delaure, P.Schuurmans, S.Schwarz, P.Schmidt, N.Severijns, O.Forstner

Space Charge Effects in a Gas Filled Penning Trap

doi: 10.1023/A:1011974828147
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2001BO59      Hyperfine Interactions 132, 215 (2001)

G.Bollen, F.Ames, G.Audi, D.Beck, J.Dilling, O.Engels, S.Henry, F.Herfurth, A.Kellerbauer, H.-J.Kluge, A.Kohl, E.Lamour, D.Lunney, R.B.Moore, M.Oinonen, C.Scheidenberger, S.Schwarz, G.Sikler, J.Szerypo, C.Weber, and the ISOLDE Collaboration

Mass Measurements on Short-Lived Nuclides with ISOLTRAP

ATOMIC MASSES ^132,133,134Ce, ¹⁴²Sm, ^147,148,149Eu, ¹⁴⁹Dy, ^{158,159,160,161,162,163,164}Yb, ¹⁶⁵Tm; measured masses. Penning trap spectrometer.

doi: 10.1023/A:1011943813020
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2001HA32      Prog.Part.Nucl.Phys. 46, 343 (2001)

D.Habs, F.Ames, W.Assmann, S.Emhofer, O.Engels, M.Gross, O.Kester, H.J.Maier, P.Reiter, T.Sieber, P.Thirolf, and the REX-ISOLDE and MAFF-Collaboration

The REX-ISOLDE-Project and the Munich Accelerator for Fission Fragments MAFF

doi: 10.1016/S0146-6410(01)00141-7
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2001SC41      Nucl.Phys. A693, 533 (2001)

S.Schwarz, F.Ames, G.Audi, D.Beck, G.Bollen, C.De Coster, J.Dilling, O.Engels, R.Fossion, J.-E.Garcia Ramos, S.Henry, F.Herfurth, K.Heyde, A.Kellerbauer, H.-J.Kluge, A.Kohl, E.Lamour, D.Lunney, I.Martel, R.B.Moore, M.Oinonen, H.Raimbault-Hartmann, C.Scheidenberger, G.Sikler, J.Szerypo, C.Weber, and the ISOLDE Collaboration

Accurate Masses of Neutron-Deficient Nuclides Close to Z = 82

ATOMIC MASSES ^{179,180,181,182,183,184,185,185m,186,187,187m,188,189m,190,191,191m,192,193,193m,194,195,196,197,197m,200}Hg, ^196,198,204Pb, ¹⁹⁷Bi, ¹⁹⁸Po, ²⁰³At; measured masses. Penning trap.

doi: 10.1016/S0375-9474(01)00881-8
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2001SC54      Hyperfine Interactions 132, 337 (2001)

S.Schwarz, F.Ames, G.Audi, D.Beck, G.Bollen, J.Dilling, F.Herfurth, H.-J.Kluge, A.Kellerbauer, A.Kohl, D.Lunney, R.B.Moore, H.Raimbault-Hartmann, C.Scheidenberger, G.Sikler, J.Szerypo

Accurate Mass Determination of Neutron-Deficient Nuclides Close to Z = 82 with ISOLTRAP

ATOMIC MASSES ^{182,183,184,185,186,187,188,189,190,191,192,193,194,195,196,197}Hg, ^196,198Pb, ¹⁹⁷Bi, ¹⁹⁸Po, ²⁰³At; measured masses. ^{185,187,191,193,197}Hg; measured isomeric states energies. Penning trap mass spectrometer, gas-filled radiofrequency quadrupole trap.

doi: 10.1023/A:1011996613609
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2001WE19      Hyperfine Interactions 132, 535 (2001)

L.Weissman, F.Ames, J.Aysto, O.Forstner, S.Rinta-Antila, P.Schmidt, and the ISOLDE Collaboration

Feasibilty of In-Trap Conversion Electron Spectroscopy

RADIOACTIVITY ^116mIn(β^-); ¹³¹Ba(EC); measured E(ce), I(ce). Trapped ions.

doi: 10.1023/A:1011964020395
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2000BE42      Eur.Phys.J. A 8, 307 (2000)

D.Beck, F.Ames, G.Audi, G.Bollen, F.Herfurth, H.-J.Kluge, A.Kohl, M.Konig, D.Lunney, I.Martel, R.B.Moore, H.Raimbault-Hartmann, E.Schark, S.Schwarz, M.de Saint Simon, J.Szerypo, and the ISOLDE Collaboration

Accurate Masses of Unstable Rare-Earth Isotopes by ISOLTRAP

ATOMIC MASSES ¹³³Cs, ^123,125,127Ba, ^{133,134,135,136,137}Pr, ^{130,132,134,135,136,137,138}Nd, ^{136,137,138,139,140,141,143}Pm, ^{136,137,138,139,140,141,142,143}Sm, ^{139,141,142,143,144,145,146,147,148,149,151,153}Eu, ^148,149,154Dy, ¹⁵⁰Ho; measured mass. Penning trap.

COMPILATION Z=55-80; compiled, evaluated atomic mass data.

NUCLEAR REACTIONS ¹⁸¹Ta(p, X)¹³³Ce/¹³³Pr/¹³³Nd/¹³⁸Nd/¹³⁸Pm/¹³⁹Pm/¹⁴⁰Pm/¹⁴²Pm/¹³⁹Sm/¹⁴⁰Sm/¹⁴¹Sm/¹⁴²Sm/¹⁴³Sm/¹³⁸Eu/¹⁴⁰Eu/¹⁴¹Eu/¹⁴²Eu/¹⁴³Eu/¹⁴⁴Eu/¹⁴³Gd/¹⁴⁴Tb/¹⁴⁸Tb/¹⁵⁰Tb/¹⁵¹Tb/¹⁴⁸Dy/¹⁵⁰Dy/¹⁵¹Dy/¹⁵⁰Ho/¹⁵¹Ho/¹⁷⁶Yb/¹⁶⁸Lu/¹⁷⁶W/¹⁷⁶Ta, E=1 GeV; measured Eγ, secondary beam intensity yield. Isolde mass separator.

doi: 10.1007/s100500070085
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2000HA68      Hyperfine Interactions 129, 43 (2000)

D.Habs, O.Kester, T.Sieber, H.Bongers, S.Emhofer, P.Reiter, P.G.Thirolf, G.Bollen, J.Aysto, O.Forstner, H.Ravn, T.Nilsson, M.Oinonen, H.Simon, J.Cederkall, F.Ames, P.Schmidt, G.Huber, L.Liljeby, O.Skeppstedt, K.G.Rensfelt, F.Wenander, B.Jonson, G.Nyman, R.von Hahn, H.Podlech, R.Repnow, C.Gund, D.Schwalm, A.Schempp, K.-U.Kuhnel, C.Welsch, U.Ratzinger, G.Walter, A.Huck, K.Kruglov, M.Huyse, P.Van den Bergh, P.Van Duppen, L.Weissman, A.C.Shotter, A.N.Ostrowski, T.Davinson, P.J.Woods, J.Cub, A.Richter, G.Schrieder, and the REX-ISOLDE Collaboration

The REX-ISOLDE project

doi: 10.1023/A:1012603025802
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1999AM05      Nucl.Phys. A651, 3 (1999)

F.Ames, G.Audi, D.Beck, G.Bollen, M.de Saint Simon, R.Jertz, H.-J.Kluge, A.Kohl, M.Konig, D.Lunney, I.Martel, R.B.Moore, T.Otto, Z.Patyk, H.Raimbault-Hartmann, G.Rouleau, G.Savard, E.Schark, S.Schwarz, L.Schweikhard, H.Stolzenberg, J.Szerypo, and the ISOLDE Collaboration

High-Accuracy Mass Determination of Unstable Cesium and Barium Isotopes

ATOMIC MASSES ^{117,118,119,120,122,123,124,125,126,127,128,129,130,131,132,133,134,135,136,137,138,139,140,141,142}Cs, ^{123,124,125,126,127,128,131,138,139,140,141,142,143,144}Ba; measured masses. Online mass spectrometry, Penning trap, least-squares adjustment of data. Macroscopic-microscopic model calculations.

doi: 10.1016/S0375-9474(99)00111-6
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1989RU07      Nucl.Instrum.Methods Phys.Res. A281, 547 (1989)

W.Ruster, F.Ames, H.-J.Kluge, E.-W.Otten, D.Rehklau, F.Scheerer, G.Herrmann, C.Muhleck, J.Riegel, H.Rimke, P.Sattelberger, N.Trautmann

A Resonance Ionization Mass Spectrometer as an Analytical Instrument for Trace Analysis

NUCLEAR MOMENTS ^242,239Pu; measured isotope shift, hfs data. Resonance ionization mass spectrometer.

RADIOACTIVITY ^244,241,240Pu; measured isotope shift, hfs data. Resonance ionization mass spectrometer.

doi: 10.1016/0168-9002(89)91489-7
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