E. Lunderberg
Hope College
Network
Latest external collaboration on country level. Dive into details by clicking on the dots.
Publication
Featured researches published by E. Lunderberg.
Physical Review Letters | 2012
E. Lunderberg; Paul DeYoung; Z. Kohley; H Attanayake; T. Baumann; D. Bazin; G. Christian; D Divaratne; S. M. Grimes; A Haagsma; J. E. Finck; N. Frank; B. Luther; S. Mosby; T Nagi; Graham F. Peaslee; A. Schiller; J. Snyder; A. Spyrou; M.J. Strongman; M. Thoennessen
Evidence for the ground state of the neutron-unbound nucleus (26)O was observed for the first time in the single proton-knockout reaction from a 82 MeV/u (27)F beam. Neutrons were measured in coincidence with (24)O fragments. (26)O was determined to be unbound by 150(-150)(+50) keV from the observation of low-energy neutrons. This result agrees with recent shell-model calculations based on microscopic two- and three-nucleon forces.
Physical Review Letters | 2013
Z. Kohley; T. Baumann; D. Bazin; G. Christian; Paul DeYoung; J. E. Finck; N. Frank; M. D. Jones; E. Lunderberg; B. Luther; S. Mosby; T Nagi; J. K. Smith; J. Snyder; A. Spyrou; M. Thoennessen
A new technique was developed to measure the lifetimes of neutron unbound nuclei in the picosecond range. The decay of 26O→24O+n+n was examined as it had been predicted to have an appreciable lifetime due to the unique structure of the neutron-rich oxygen isotopes. The half-life of 26O was extracted as 4.5(-1.5)(+1.1)(stat)±3(syst) ps. This corresponds to 26O having a finite lifetime at an 82% confidence level and, thus, suggests the possibility of two-neutron radioactivity.
Nuclear Physics | 2013
S. Mosby; N.S. Badger; T. Baumann; D. Bazin; M. Bennett; J. Brown; G. Christian; Paul DeYoung; J. E. Finck; M. Gardner; J. Hinnefeld; E.A. Hook; E. Lunderberg; B. Luther; D.A. Meyer; M. Mosby; Graham F. Peaslee; Warren F. Rogers; J. K. Smith; J. Snyder; A. Spyrou; M.J. Strongman; M. Thoennessen
A search for the neutron-unbound nucleus
Nuclear Physics | 2013
S. Mosby; M. Gardner; G. Christian; J. Hinnefeld; J. Brown; Graham F. Peaslee; D. Bazin; M.J. Strongman; E.A. Hook; M. Thoennessen; Paul DeYoung; E. Lunderberg; D.A. Meyer; J. E. Finck; T. Baumann; J. K. Smith; A. Spyrou; B. Luther; M. Bennett; N.S. Badger; Warren F. Rogers; M. Mosby; J. Snyder
^{21}
Physical Review Letters | 2014
A. Gade; R. V. F. Janssens; D. Weisshaar; B. A. Brown; E. Lunderberg; M. Albers; V. M. Bader; T. Baugher; D. Bazin; J. S. Berryman; C. M. Campbell; M. P. Carpenter; C. J. Chiara; H. L. Crawford; M. Cromaz; U. Garg; C. R. Hoffman; F. G. Kondev; C. Langer; T. Lauritsen; I. Y. Lee; S. M. Lenzi; J. T. Matta; F. Nowacki; F. Recchia; K. Sieja; J. A. Tostevin; Williams Sj; K. Wimmer; S. Zhu
C was performed via the single proton removal reaction from a beam of 22 N at 68 MeV/u. Neutrons were detected with the Modular Neutron Array (MoNA) in coincidence with
Acta Physica Polonica B | 2013
M. Thoennessen; Z. Kohley; A. Spyrou; E. Lunderberg; Paul DeYoung; H. Attanayake; T. Baumann; D. Bazin; B. A. Brown; G. Christian; D. Divaratne; S. M. Grimes; A. Haagsma; J. E. Finck; N. Frank; B. Luther; S. Mosby; T Nagi; Graham F. Peaslee; W. A. Peters; A. Schiller; J.K. Smith; J. Snyder; M.J. Strongman; Alexander Volya
^{20}
Physical Review Letters | 2012
G. Christian; N. Frank; S. Ash; T. Baumann; D. Bazin; J. Brown; Paul DeYoung; J. E. Finck; A. Gade; G. F. Grinyer; A. Grovom; J. Hinnefeld; E. Lunderberg; B. Luther; M. Mosby; S. Mosby; T Nagi; Graham F. Peaslee; Warren F. Rogers; J.K. Smith; J. Snyder; A. Spyrou; M.J. Strongman; M. Thoennessen; M. Warren; D. Weisshaar; A. Wersal
C fragments. No evidence for a low-lying state was found, and the reconstructed
arXiv: Nuclear Experiment | 2013
Z. Kohley; A. Spyrou; E. Lunderberg; Paul DeYoung; H. Attanayake; T. Baumann; D. Bazin; B. A. Brown; G. Christian; D. Divaratne; S. M. Grimes; A Haagsma; J. E. Finck; N. Frank; B. Luther; S. Mosby; T Nagi; Graham F. Peaslee; W. A. Peters; A. Schiller; J. K. Smith; J. Snyder; M.J. Strongman; M. Thoennessen; Alexander Volya
^{20}
Journal of Physics: Conference Series | 2014
Z. Kohley; T. Baumann; D. Bazin; G. Christian; P. A. De Young; J. E. Finck; R. A. Haring-Kaye; J. Hinnefeld; N. Frank; E. Lunderberg; B. Luther; S. Mosby; W. A. Peters; J.K. Smith; J. Snyder; S. L. Stephenson; M.J. Strongman; A. Spyrou; M. Thoennessen; Alexander Volya
C+n decay energy spectrum could be described with an s-wave line shape with a scattering length limit of |as| < 2.8 fm, consistent with shell model predictions. A comparison with a renormalized zero-range three-body model suggests that
PLOS ONE | 2012
Airat Bekmetjev; Dirk VanBruggen; Brian McLellan; Benjamin DeWinkle; E. Lunderberg; Nathan L. Tintle
^{22}
