Shlomo, Shalom individual record
Senior Scientist
overview

Theoretical Nuclear Physics. Development and application of microscopic theory of various static and dynamic properties of nuclei, considered as many-body systems of strongly interacting constituents, with emphasis on nuclear structure and reaction. Of particular interest are the topics of nuclear spectroscopy within the shell-model and collective models, effects of correlations on properties of nuclei, Coulomb displacement energies and charge density distributions, linear response function and giant resonances, deep-inelastic lepton nucleus scattering, level density, properties of hot nuclei and heavy-ion collisions.

education and training
selected publications
Academic Articles167
  • Shlomo, S., & Sanzhur, A. I. (2020). Energy density functional and sensitivity of energies of giant resonances to bulk nuclear matter properties. Nuclear Physics and Atomic Energy. 21(2), 113-128.
  • Button, J., Lui, Y., Youngblood, D. H., Chen, X., Bonasera, G., & Shlomo, S. (2019). Isoscalar E0,E1 , and E2 strength in Fe54 and Zn64,68. Physical Review C. (6),
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  • Gorelik, M. L., Shlomo, S., Tulupov, B. A., & Urin, M. H. (2018). On unitarity of the particlehole dispersive optical model. Nuclear Physics A. 970, 353-365.
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  • Bonasera, G., Anders, M. R., & Shlomo, S. (2018). Giant resonances in Ca40,48,Ni68,Zr90,Sn116,Sm144 , and Pb208. Physical Review C. (5),
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  • Button, J., Lui, Y., Youngblood, D. H., Chen, X., Bonasera, G., & Shlomo, S. (2017). Isoscalar E0,E1 , and E2 strength in Ca44. Physical Review C. 96(5),
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Chapters3
  • Shlomo, S., Kolomietz, V. M., & Col, G. (2006). Deducing the nuclear-matter incompressibility coefficient from data on isoscalar compression modes. Dynamics and Thermodynamics with Nuclear Degrees of Freedom. 23-30. Springer Berlin Heidelberg.
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  • Agrawal, B. K., Shlomo, S., & Kim Au, V. (2005). Breathing mode energy and nuclear matter incompressibility coefficient within relativistic and non-relativistic models. The 4th International Conference on Exotic Nuclei and Atomic Masses. 525-526. Springer Berlin Heidelberg.
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  • Shlomo, S., Akulinichev, S. V., Kulagin, S. A., & Vagradov, G. M. (1986). Nuclear Effects in Deep-Inelastic Lepton-Nucleus Scattering. Weak and Electromagnetic Interactions in Nuclei. 400-403. Springer Berlin Heidelberg.
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Conference Papers38
  • Shlomo, S., Bonasera, G., & Anders, M. R. (2019). Giant resonances in 40,48Ca, 68Ni, 90Zr, 116Sn, 144Sm and 208Pb and properties of nuclear matter. AIP Conference Proceedings, Symmetries and Order: Algebraic Methods in Many Body Systems: A symposium in celebration of the career of Professor Francesco Iachello. 2150(1), 030011.
  • Shlomo, S., Talmi, I., Anders, M. R., & Bonasera, G. (2018). Effect of short-range correlations on the single proton 3s1/2wave function in206Pb. Journal of Physics: Conference Series. 966(1), 012013-012013.
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  • Shlomo, S., & Anders, M. R. (2017). A novel method for determining the mean-field directly from the single particle matter density. AIP Conference Proceedings, EXOTIC NUCLEI AND NUCLEAR/PARTICLE ASTROPHYSICS (VI). PHYSICS WITH SMALL ACCELERATORS: Proceedings of Carpathian Summer School of Physics 2016 (CSSP16). 1852(1), 020003.
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  • Gorelik, M. L., Shlomo, S., Tulupov, B. A., & Urin, M. H. (2016). Properties of isoscalar monopole particle-hole-type excitations in208Pb. EPJ Web of Conferences. 107, 05008-05008.
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  • Shlomo, S., Anders, M. R., & Talmi, I. (2015). A novel method for determining the mean-field directly from the single particle matter density. Journal of Physics: Conference Series. 633(1), 012028-012028.
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chaired theses and dissertations
Email
s-shlomo@tamu.edu
First Name
Shalom
Last Name
Shlomo
mailing address
TEXAS A&M UNIVERSITY; Cyclotron Institute; 3366 TAMU
College Station, TX 77843-3366
USA