Declan Mulhall, Ph.D.
Affiliations: | Michigan State University, East Lansing, MI |
Area:
nuclear physics, mesoscopic physicsGoogle:
"Declan Mulhall"Mean distance: 3872
Parents
Sign in to add mentor| Vladimir Zelevinsky | grad student | 2002 | Michigan State | |
| (Quantum chaos and nuclear spectra.) | ||||
BETA: Related publications
See more...
Publications
|
You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect. |
| Mulhall D. (2015) Open quantum systems and random matrix theory Physical Review C - Nuclear Physics. 91 |
| Mulhall D. (2011) Maximum likelihood method to correct for missed levels based on the Δ3(L) statistic Physical Review C - Nuclear Physics. 83 |
| Mulhall D. (2010) Publisher’s Note: Using theΔ3statistic to test for missed levels in mixed sequence neutron resonance data [Phys. Rev. C80, 034612 (2009)] Physical Review C. 82 |
| Mulhall D. (2009) Using the Δ3 statistic to test for missed levels in mixed sequence neutron resonance data Physical Review C - Nuclear Physics. 80 |
| Mulhall D, Huard Z, Zelevinsky V. (2007) Ergodicity of the Δ3 statistic and purity of neutron resonance data Physical Review C - Nuclear Physics. 76 |
| Zelevinsky VG, Mulhall D, Volya A. (2001) Do we understand the role of incoherent interactions in many-body physics? Physics of Atomic Nuclei. 64: 525-535 |
| Mulhall D, Volya A, Zelevinsky V. (2001) Random interactions: Shedding light on nuclear structure Nuclear Physics A. 682: 229c-235c |
| Mulhall D, Zelevinsky V, Volya A. (2001) Spin ordering of nuclear spectra from random interactions Acta Physica Polonica B. 32: 2491-2498 |
| Mulhall D, Volya A, Zelevinsky V. (2000) Geometric chaoticity leads to ordered spectra for randomly interacting fermions. Physical Review Letters. 85: 4016-9 |
| Mulhall D, Volya A, Zelevinsky V. (2000) Geometric chaoticity leads to ordered spectra for randomly interacting fermions Physical Review Letters. 85: 4016-4019 |