Your search keyword '"Stracener DW"' showing total 26 results

1. Rare ^{40}K Decay with Implications for Fundamental Physics and Geochronology.

Author

Stukel M, Hariasz L, Di Stefano PCF, Rasco BC, Rykaczewski KP, Brewer NT, Stracener DW, Liu Y, Gai Z, Rouleau C, Carter J, Kostensalo J, Suhonen J, Davis H, Lukosi ED, Goetz KC, Grzywacz RK, Mancuso M, Petricca F, Fijałkowska A, Wolińska-Cichocka M, Ninkovic J, Lechner P, Ickert RB, Morgan LE, Renne PR, and Yavin I

Abstract

Potassium-40 is a widespread, naturally occurring isotope whose radioactivity impacts subatomic rare-event searches, nuclear structure theory, and estimated geological ages. A predicted electron-capture decay directly to the ground state of argon-40 has never been observed. The KDK (potassium decay) collaboration reports strong evidence of this rare decay mode. A blinded analysis reveals a nonzero ratio of intensities of ground-state electron-captures (I_{EC^{0}}) over excited-state ones (I_{EC^{*}}) of I_{EC^{0}}/I_{EC^{*}}=0.0095±[over stat]0.0022±[over sys]0.0010 (68% C.L.), with the null hypothesis rejected at 4σ. In terms of branching ratio, this signal yields I_{EC^{0}}=0.098%±[over stat]0.023%±[over sys]0.010%, roughly half of the commonly used prediction, with consequences for various fields [27L. Hariasz et al., companion paper, Phys. Rev. C 108, 014327 (2023)PRVCAN2469-998510.1103/PhysRevC.108.014327].

Published

2023

2. β-Delayed One and Two Neutron Emission Probabilities Southeast of ^{132}Sn and the Odd-Even Systematics in r-Process Nuclide Abundances.

Author

Phong VH, Nishimura S, Lorusso G, Davinson T, Estrade A, Hall O, Kawano T, Liu J, Montes F, Nishimura N, Grzywacz R, Rykaczewski KP, Agramunt J, Ahn DS, Algora A, Allmond JM, Baba H, Bae S, Brewer NT, Bruno CG, Caballero-Folch R, Calviño F, Coleman-Smith PJ, Cortes G, Dillmann I, Domingo-Pardo C, Fijalkowska A, Fukuda N, Go S, Griffin CJ, Ha J, Harkness-Brennan LJ, Isobe T, Kahl D, Khiem LH, Kiss GG, Korgul A, Kubono S, Labiche M, Lazarus I, Liang J, Liu Z, Matsui K, Miernik K, Moon B, Morales AI, Morrall P, Nepal N, Page RD, Piersa-Siłkowska M, Pucknell VFE, Rasco BC, Rubio B, Sakurai H, Shimizu Y, Stracener DW, Sumikama T, Suzuki H, Tain JL, Takeda H, Tarifeño-Saldivia A, Tolosa-Delgado A, Wolińska-Cichocka M, Woods PJ, and Yokoyama R

Abstract

The β-delayed one- and two-neutron emission probabilities (P_{1n} and P_{2n}) of 20 neutron-rich nuclei with N≥82 have been measured at the RIBF facility of the RIKEN Nishina Center. P_{1n} of ^{130,131}Ag, ^{133,134}Cd, ^{135,136}In, and ^{138,139}Sn were determined for the first time, and stringent upper limits were placed on P_{2n} for nearly all cases. β-delayed two-neutron emission (β2n) was unambiguously identified in ^{133}Cd and ^{135,136}In, and their P_{2n} were measured. Weak β2n was also detected from ^{137,138}Sn. Our results highlight the effect of the N=82 and Z=50 shell closures on β-delayed neutron emission probability and provide stringent benchmarks for newly developed macroscopic-microscopic and self-consistent global models with the inclusion of a statistical treatment of neutron and γ emission. The impact of our measurements on r-process nucleosynthesis was studied in a neutron star merger scenario. Our P_{1n} and P_{2n} have a direct impact on the odd-even staggering of the final abundance, improving the agreement between calculated and observed Solar System abundances. The odd isotope fraction of Ba in r-process-enhanced (r-II) stars is also better reproduced using our new data.

Published

2022

3. Study of Quasielastic Barrier Distributions as a Step towards the Synthesis of Superheavy Elements with Hot Fusion Reactions.

Author

Tanaka T, Morita K, Morimoto K, Kaji D, Haba H, Boll RA, Brewer NT, Van Cleve S, Dean DJ, Ishizawa S, Ito Y, Komori Y, Nishio K, Niwase T, Rasco BC, Roberto JB, Rykaczewski KP, Sakai H, Stracener DW, and Hagino K

Abstract

The excitation functions for quasielastic scattering of ^{22}Ne+^{248}Cm, ^{26}Mg+^{248}Cm, and ^{48}Ca+^{238}U are measured using a gas-filled recoil ion separator. The quasielastic barrier distributions are extracted for these systems and are compared with coupled-channel calculations. The results indicate that the barrier distribution is affected dominantly by deformation of the actinide target nuclei, but also by vibrational or rotational excitations of the projectile nuclei, as well as neutron transfer processes before capture. From a comparison between the experimental barrier distributions and the evaporation residue cross sections for Sg (Z=106), Hs (108), Cn (112), and Lv (116), it is suggested that the hot fusion reactions take advantage of a compact collision, where the projectile approaches along the short axis of a prolately deformed nucleus. A new method is proposed to estimate the optimum incident energy to synthesize unknown superheavy nuclei using the barrier distribution.

Published

2020

4. Early Signal of Emerging Nuclear Collectivity in Neutron-Rich ^{129}Sb.

Author

Gray TJ, Allmond JM, Stuchbery AE, Yu CH, Baktash C, Gargano A, Galindo-Uribarri A, Radford DC, Batchelder JC, Beene JR, Bingham CR, Coraggio L, Covello A, Danchev M, Gross CJ, Hausladen PA, Itaco N, Krolas W, Liang JF, Padilla-Rodal E, Pavan J, Stracener DW, and Varner RL

Abstract

Radioactive ^{129}Sb, which can be treated as a proton plus semimagic ^{128}Sn core within the particle-core coupling scheme, was studied by Coulomb excitation. Reduced electric quadrupole transition probabilities, B(E2), for the 2^{+}⊗πg_{7/2} multiplet members and candidate πd_{5/2} state were measured. The results indicate that the total electric quadrupole strength of ^{129}Sb is a factor of 1.39(11) larger than the ^{128}Sn core, which is in stark contrast to the expectations of the empirically successful particle-core coupling scheme. Shell-model calculations performed with two different sets of nucleon-nucleon interactions suggest that this enhanced collectivity is due to constructive quadrupole coherence in the wave functions stemming from the proton-neutron residual interactions, where adding one nucleon to a core near a double-shell closure can have a pronounced effect. The enhanced electric quadrupole strength is an early signal of the emerging nuclear collectivity that becomes dominant away from the shell closure.

Published

2020

5. Impact of Modular Total Absorption Spectrometer measurements of β decay of fission products on the decay heat and reactor ν[over ¯]_{e} flux calculation.

Author

Fijałkowska A, Karny M, Rykaczewski KP, Rasco BC, Grzywacz R, Gross CJ, Wolińska-Cichocka M, Goetz KC, Stracener DW, Bielewski W, Goans R, Hamilton JH, Johnson JW, Jost C, Madurga M, Miernik K, Miller D, Padgett SW, Paulauskas SV, Ramayya AV, and Zganjar EF

Abstract

We report the results of a β-decay study of fission products ^{86}Br, ^{89}Kr, ^{89}Rb, ^{90gs}Rb, ^{90m}Rb, ^{90}Kr, ^{92}Rb, ^{139}Xe, and ^{142}Cs performed with the Modular Total Absorption Spectrometer (MTAS) and on-line mass-separated ion beams. These radioactivities were assessed by the Nuclear Energy Agency as having high priority for decay heat analysis during a nuclear fuel cycle. We observe a substantial increase in β feeding to high excited states in all daughter isotopes in comparison to earlier data. This increases the average γ-ray energy emitted by the decay of fission fragments during the first 10 000 s after fission of ^{235}U and ^{239}Pu by approximately 2% and 1%, respectively, improving agreement between results of calculations and direct observations. New MTAS results reduce the reference reactor ν[over ¯]_{e} flux used to analyze reactor ν[over ¯]_{e} interaction with detector matter. The reduction determined by the ab initio method for the four nuclear fuel components, ^{235}U, ^{238}U, ^{239}Pu, and ^{241}Pu, amounts to 0.976, 0.986, 0.983, and 0.984, respectively.

Published

2017

6. Electromagnetic Moments of Radioactive ^{136}Te and the Emergence of Collectivity 2p⊕2n Outside of Double-Magic ^{132}Sn.

Author

Allmond JM, Stuchbery AE, Baktash C, Gargano A, Galindo-Uribarri A, Radford DC, Bingham CR, Brown BA, Coraggio L, Covello A, Danchev M, Gross CJ, Hausladen PA, Itaco N, Lagergren K, Padilla-Rodal E, Pavan J, Riley MA, Stone NJ, Stracener DW, Varner RL, and Yu CH

Abstract

Radioactive ^{136}Te has two valence protons and two valence neutrons outside of the ^{132}Sn double shell closure, providing a simple laboratory for exploring the emergence of collectivity and nucleon-nucleon interactions. Coulomb excitation of ^{136}Te on a titanium target was utilized to determine an extensive set of electromagnetic moments for the three lowest-lying states, including B(E2;0_{1}^{+}→2_{1}^{+}), Q(2_{1}^{+}), and g(2_{1}^{+}). The results indicate that the first-excited state, 2_{1}^{+}, composed of the simple 2p⊕2n system, is prolate deformed, and its wave function is dominated by excited valence neutron configurations, but not to the extent previously suggested. It is demonstrated that extreme sensitivity of g(2_{1}^{+}) to the proton and neutron contributions to the wave function provides unique insight into the nature of emerging collectivity, and g(2_{1}^{+}) was used to differentiate among several state-of-the-art theoretical calculations. Our results are best described by the most recent shell model calculations.

Published

2017

7. Evidence for Gamow-Teller Decay of ^{78}Ni Core from Beta-Delayed Neutron Emission Studies.

Author

Madurga M, Paulauskas SV, Grzywacz R, Miller D, Bardayan DW, Batchelder JC, Brewer NT, Cizewski JA, Fijałkowska A, Gross CJ, Howard ME, Ilyushkin SV, Manning B, Matoš M, Mendez AJ, Miernik K, Padgett SW, Peters WA, Rasco BC, Ratkiewicz A, Rykaczewski KP, Stracener DW, Wang EH, Wolińska-Cichocka M, and Zganjar EF

Abstract

The β-delayed neutron emission of ^{83,84}Ga isotopes was studied using the neutron time-of-flight technique. The measured neutron energy spectra showed emission from states at excitation energies high above the neutron separation energy and previously not observed in the β decay of midmass nuclei. The large decay strength deduced from the observed intense neutron emission is a signature of Gamow-Teller transformation. This observation was interpreted as evidence for allowed β decay to ^{78}Ni core-excited states in ^{83,84}Ge favored by shell effects. We developed shell model calculations in the proton fpg_{9/2} and neutron extended fpg_{9/2}+d_{5/2} valence space using realistic interactions that were used to understand measured β-decay lifetimes. We conclude that enhanced, concentrated β-decay strength for neutron-unbound states may be common for very neutron-rich nuclei. This leads to intense β-delayed high-energy neutron and strong multineutron emission probabilities that in turn affect astrophysical nucleosynthesis models.

Published

2016

8. Decays of the Three Top Contributors to the Reactor ν[over ¯]_{e} High-Energy Spectrum, ^{92}Rb, ^{96gs}Y, and ^{142}Cs, Studied with Total Absorption Spectroscopy.

Author

Rasco BC, Wolińska-Cichocka M, Fijałkowska A, Rykaczewski KP, Karny M, Grzywacz RK, Goetz KC, Gross CJ, Stracener DW, Zganjar EF, Batchelder JC, Blackmon JC, Brewer NT, Go S, Heffron B, King T, Matta JT, Miernik K, Nesaraja CD, Paulauskas SV, Rajabali MM, Wang EH, Winger JA, Xiao Y, and Zachary CJ

Abstract

We report total absorption spectroscopy measurements of ^{92}Rb, ^{96gs}Y, and ^{142}Cs β decays, which are the most important contributors to the high energy ν[over ¯]_{e} spectral shape in nuclear reactors. These three β decays contribute 43% of the ν[over ¯]_{e} flux near 5.5 MeV emitted by nuclear reactors. This ν[over ¯]_{e} energy is particularly interesting due to spectral features recently observed in several experiments including the Daya Bay, Double Chooz, and RENO Collaborations. Measurements were conducted at Oak Ridge National Laboratory by means of proton-induced fission of ^{238}U with on-line mass separation of fission fragments and the Modular Total Absorption Spectrometer. We observe a β-decay pattern that is similar to recent measurements of ^{92}Rb, with a ground-state to ground-state β feeding of 91(3)%. We verify the ^{96gs}Y ground-state to ground-state β feeding of 95.5(20)%. Our measurements substantially modify the β-decay feedings of ^{142}Cs, reducing the β feeding to ^{142}Ba states below 2 MeV by 32% when compared with the latest evaluations. Our results increase the discrepancy between the observed and the expected reactor ν[over ¯]_{e} flux between 5 and 7 MeV, the maximum excess increases from ∼10% to ∼12%.

Published

2016

9. Constraint of the astrophysical ^{26g}Al(p,γ)^{27}Si destruction rate at stellar temperatures.

Author

Pain SD, Bardayan DW, Blackmon JC, Brown SM, Chae KY, Chipps KA, Cizewski JA, Jones KL, Kozub RL, Liang JF, Matei C, Matos M, Moazen BH, Nesaraja CD, Okołowicz J, O'Malley PD, Peters WA, Pittman ST, Płoszajczak M, Schmitt KT, Shriner JF, Shapira D, Smith MS, Stracener DW, and Wilson GL

Abstract

The Galactic 1.809-MeV γ-ray signature from the β decay of ^{26g}Al is a dominant target of γ-ray astronomy, of which a significant component is understood to originate from massive stars. The ^{26g}Al(p,γ)^{27}Si reaction is a major destruction pathway for ^{26g}Al at stellar temperatures, but the reaction rate is poorly constrained due to uncertainties in the strengths of low-lying resonances in ^{27}Si. The ^{26g}Al(d,p)^{27}Al reaction has been employed in inverse kinematics to determine the spectroscopic factors, and hence resonance strengths, of proton resonances in ^{27}Si via mirror symmetry. The strength of the 127-keV resonance is found to be a factor of 4 higher than the previously adopted upper limit, and the upper limit for the 68-keV resonance has been reduced by an order of magnitude, considerably constraining the ^{26g}Al destruction rate at stellar temperatures.

Published

2015

10. Double-magic nature of 132Sn and 208Pb through lifetime and cross-section measurements.

Author

Allmond JM, Stuchbery AE, Beene JR, Galindo-Uribarri A, Liang JF, Padilla-Rodal E, Radford DC, Varner RL, Ayres A, Batchelder JC, Bey A, Bingham CR, Howard ME, Jones KL, Manning B, Mueller PE, Nesaraja CD, Pain SD, Peters WA, Ratkiewicz A, Schmitt KT, Shapira D, Smith MS, Stone NJ, Stracener DW, and Yu CH

Abstract

Single-neutron states in (133)Sn and (209)Pb, which are analogous to single-electron states outside of closed atomic shells in alkali metals, were populated by the ((9)Be, (8)Be) one-neutron transfer reaction in inverse kinematics using particle-γ coincidence spectroscopy. In addition, the s(1/2) single-neutron hole-state candidate in (131)Sn was populated by ((9)Be, (10)Be). Doubly closed-shell (132)Sn (radioactive) and (208)Pb (stable) beams were used at sub-Coulomb barrier energies of 3 MeV per nucleon. Level energies, γ-ray transitions, absolute cross sections, spectroscopic factors, asymptotic normalization coefficients, and excited-state lifetimes are reported and compared with shell-model expectations. The results include a new transition and precise level energy for the 3p(1/2) candidate in (133)Sn, new absolute cross sections for the 1h(9/2) candidate in (133)Sn and 3s(1/2) candidate in (131)Sn, and new lifetimes for excited states in (133)Sn and (209)Pb. This is the first report on excited-state lifetimes of (133)Sn, which allow for a unique test of the nuclear shell model and (132)Sn double-shell closure.

Published

2014

11. Large β-delayed one and two neutron emission rates in the decay of 86Ga.

Author

Miernik K, Rykaczewski KP, Gross CJ, Grzywacz R, Madurga M, Miller D, Batchelder JC, Borzov IN, Brewer NT, Jost C, Korgul A, Mazzocchi C, Mendez AJ 2nd, Liu Y, Paulauskas SV, Stracener DW, Winger JA, Wolińska-Cichocka M, and Zganjar EF

Abstract

Beta decay of 86Ga was studied by means of β-neutron-γ spectroscopy. An isotopically pure ^{86}Ga beam was produced at the Holifield Radioactive Ion Beam Facility using a resonance ionization laser ion source and high-resolution electromagnetic separation. The decay of 86Ga revealed a half-life of 43(-15)(+21) ms and large β-delayed one-neutron and two-neutron branching ratios of P1n=60(10)% and P2n=20(10)%. The βγ decay of 86Ga populated a 527 keV transition that is interpreted as the deexcitation of the first 2+ state in the N=54 isotone 86Ge and suggests a quick onset of deformation in Ge isotopes beyond N=50.

Published

2013

12. New half-lives of r-process Zn and Ga isotopes measured with electromagnetic separation.

Author

Madurga M, Surman R, Borzov IN, Grzywacz R, Rykaczewski KP, Gross CJ, Miller D, Stracener DW, Batchelder JC, Brewer NT, Cartegni L, Hamilton JH, Hwang JK, Liu SH, Ilyushkin SV, Jost C, Karny M, Korgul A, Królas W, Kuźniak A, Mazzocchi C, Mendez AJ 2nd, Miernik K, Padgett SW, Paulauskas SV, Ramayya AV, Winger JA, Wolińska-Cichocka M, and Zganjar EF

Abstract

The β decays of neutron-rich nuclei near the doubly magic (78)Ni were studied at the Holifield Radioactive Ion Beam Facility using an electromagnetic isobar separator. The half-lives of (82)Zn (228±10  ms), (83)Zn (117±20  ms), and (85)Ga (93±7  ms) were determined for the first time. These half-lives were found to be very different from the predictions of the global model used in astrophysical simulations. A new calculation was developed using the density functional model, which properly reproduced the new experimental values. The robustness of the new model in the (78)Ni region allowed us to extrapolate data for more neutron-rich isotopes. The revised analysis of the rapid neutron capture process in low entropy environments with our new set of measured and calculated half-lives shows a significant redistribution of predicted isobaric abundances strengthening the yield of A>140 nuclei.

Published

2012

13. Halo nucleus 11Be: a spectroscopic study via neutron transfer.

Author

Schmitt KT, Jones KL, Bey A, Ahn SH, Bardayan DW, Blackmon JC, Brown SM, Chae KY, Chipps KA, Cizewski JA, Hahn KI, Kolata JJ, Kozub RL, Liang JF, Matei C, Matoš M, Matyas D, Moazen B, Nesaraja C, Nunes FM, O'Malley PD, Pain SD, Peters WA, Pittman ST, Roberts A, Shapira D, Shriner JF Jr, Smith MS, Spassova I, Stracener DW, Villano AN, and Wilson GL

Abstract

The best examples of halo nuclei, exotic systems with a diffuse nuclear cloud surrounding a tightly bound core, are found in the light, neutron-rich region, where the halo neutrons experience only weak binding and a weak, or no, potential barrier. Modern direct-reaction measurement techniques provide powerful probes of the structure of exotic nuclei. Despite more than four decades of these studies on the benchmark one-neutron halo nucleus 11Be, the spectroscopic factors for the two bound states remain poorly constrained. In the present work, the 10Be(d,​p) reaction has been used in inverse kinematics at four beam energies to study the structure of 11Be. The spectroscopic factors extracted using the adiabatic model were found to be consistent across the four measurements and were largely insensitive to the optical potential used. The extracted spectroscopic factor for a neutron in an nℓj=2s(1/2) state coupled to the ground state of 10Be is 0.71(5). For the first excited state at 0.32 MeV, a spectroscopic factor of 0.62(4) is found for the halo neutron in a 1p(1/2) state.

Published

2012

14. B(E2) upward arrow measurements for radioactive neutron-rich ge isotopes: reaching the N=50 closed shell.

Author

Padilla-Rodal E, Galindo-Uribarri A, Baktash C, Batchelder JC, Beene JR, Bijker R, Brown BA, Castaños O, Fuentes B, del Campo JG, Hausladen PA, Larochelle Y, Lisetskiy AF, Mueller PE, Radford DC, Stracener DW, Urrego JP, Varner RL, and Yu CH

Abstract

The B(E2;0(+)(1)-->2(+)(1)) values for the radioactive neutron-rich germanium isotopes (78,80)Ge and the closed neutron shell nucleus 82Ge were measured at the HRIBF using Coulomb excitation in inverse kinematics. These data allow a study of the systematic trend between the subshell closures at N=40 and 50. The B(E2) behavior approaching N=50 is similar to the trend observed for heavier isotopic chains. A comparison of the experimental results with a shell model calculation demonstrates persistence of the N=50 shell gap and a strong sensitivity of the B(E2) values to the effective interaction.

Published

2005

15. Enhanced fusion-evaporation cross sections in neutron-rich 132Sn on 64Ni.

Author

Liang JF, Shapira D, Gross CJ, Beene JR, Bierman JD, Galindo-Uribarri A, Gomez del Campo J, Hausladen PA, Larochelle Y, Loveland W, Mueller PE, Peterson D, Radford DC, Stracener DW, and Varner RL

Abstract

Evaporation residue cross sections have been measured with neutron-rich radioactive 132Sn beams on 64Ni in the vicinity of the Coulomb barrier. The average beam intensity was 2 x 10(4) particles per second and the smallest cross section measured was less than 5 mb. Large sub-barrier fusion enhancement was observed. Coupled-channel calculations taking into account inelastic excitation significantly underpredict the measured cross sections below the barrier. The presence of several neutron transfer channels with large positive Q values suggests that multinucleon transfer may play an important role in enhancing the fusion of 132Sn and 64Ni.

Published

2003

16. Coulomb excitation of radioactive 132,134,136Te beams and the low B(E2) of 136Te.

Author

Radford DC, Baktash C, Beene JR, Fuentes B, Galindo-Uribarri A, Gross CJ, Hausladen PA, Lewis TA, Mueller PE, Padilla E, Shapira D, Stracener DW, Yu CH, Barton CJ, Caprio MA, Coraggio L, Covello A, Gargano A, Hartley DJ, and Zamfir NV

Abstract

The B(E2;0(+)-->2+) values for the first 2+ excited states of neutron-rich 132,134,136Te have been measured using Coulomb excitation of radioactive ion beams. The B(E2) values obtained for 132,134Te are in excellent agreement with expectations based on the systematics of heavy stable Te isotopes, while that for 136Te is unexpectedly small. These results are discussed in terms of proton-neutron configuration mixing and shell-model calculations using realistic effective interactions.

Published

2002

17. Decay of a Resonance in 18Ne by the Simultaneous Emission of Two Protons.

Author

Gómez Del Campo J, Galindo-Uribarri A, Beene JR, Gross CJ, Liang JF, Halbert ML, Stracener DW, Shapira D, Varner RL, Chavez-Lomeli E, and Ortiz ME

Abstract

Radioactive ion beams of 17F were used to study several resonance states in 18Ne. Clear evidence for simultaneous two-proton emission from the 6.15 MeV state (Jpi = 1(-)) in 18Ne has been observed with the reaction 17F+1H. Because of limited angular coverage, the data did not differentiate between the two possible mechanisms of simultaneous decay, diproton (2He) emission or direct three-body decay. The two-proton partial width was found to be 21+/-3 eV assuming 2He emission and 57+/-6 eV assuming three-body decay. The total width of the 1(-) state was measured to be 50+/-5 keV. Several additional resonances that decay by single proton emission were also studied.

Published

2001

18. Giant dipole resonance built on highly excited states of 120Sn nuclei populated by inelastic alpha scattering.

Author

Ramakrishnan E, Baumann T, Azhari A, Kryger RA, Pfaff R, Thoennesen M, Yokoyama S, Beene JR, Halbert ML, Mueller PE, Stracener DW, Varner RL, Charity RJ, Dempsey JF, Sarantites DG, and Sobotka LG

Published

1996

19. Intermediate-mass fragment decay of the neck zone formed in peripheral 209Bi+136Xe collisions at Elab/A=28MeV.

Author

Tõke J, Lott B, Baldwin SP, Quednau BM, Schröder WU, Sobotka LG, Barreto J, Charity RJ, Sarantites DG, Stracener DW, and de Souza RT

Published

1995

20. Identification and Quadrupole-Moment Measurement of a Superdeformed Band in 84Zr.

Author

Jin H, Baktash C, Brinkman MJ, Gross CJ, Sarantites DG, Lee IY, Cederwall B, Cristancho F, Döring J, Durham FE, Hua P, Johns GD, Korolija M, LaFosse DR, Landulfo E, Macchiavelli AO, Rathbun W, Saladin JX, Stracener DW, Tabor SL, and Werner TR

Published

1995

21. Evidence for hyperdeformation in 147Gd.

Author

LaFosse DR, Sarantites DG, Baktash C, Hua P, Cederwall B, Fallon P, Gross CJ, Jin H, Korolija M, Lee IY, Macchiavelli AO, Maier MR, Rathbun W, Stracener DW, and Werner TR

Published

1995

22. Dissipative orbiting in 209Bi+136Xe collisions at Elab/A=28 MeV.

Author

Baldwin SP, Lott B, Szabo BM, Quednau BM, Schröder WU, Tõke J, Sobotka LG, Barreto J, Charity RJ, Gallamore L, Sarantites DG, Stracener DW, and de Souza RT

Published

1995

23. Evidence for long formation times of near-barrier fusion reactions.

Author

Thoennessen M, Beene JR, Bertrand FE, Baktash C, Halbert ML, Horen DJ, Sarantities DG, Spang W, and Stracener DW

Published

1993

24. Binary character of highly dissipative 209Bi+136Xe collisions at Elab/A=28.2 MeV.

Author

Lott B, Baldwin SP, Szabo BM, Quednau BM, Schröder WU, Tõke J, Sobotka LG, Barreto J, Charity RJ, Gallamore L, Sarantites DG, Stracener DW, and de Souza RT

Published

1992

25. Nuclear-structure effects in proton evaporation spectra.

Author

Sarantites DG, Baktash C, Nicolis NG, Garcia-Bermudez G, Abenante V V, Beene JR, Johnson NR, Halbert ML, Hensley DC, McGowan FK, Griffin HC, Lee IY, Majka Z, Riley MA, Semkow TM, Stracener DW, and Virtanen A

Published

1990

26. Thermal and angular momentum effects in the giant-dipole-resonance decay of hot rare-earth nuclei.

Author

Morsch HP, Spang W, Beene JR, Bertrand FE, Auble RL, Charvet JL, Halbert ML, Hensley DC, Lee IY, Varner RL, Sarantites DG, and Stracener DW

Published

1990