A Study of the Isoscalar Giant Monopole Resonance: The Role of Symmetry Energy in Nuclear Incompressibility in the Open-Shell Nuclei. Darshana Chandrakant Patel

A Study of the Isoscalar Giant Monopole Resonance: The Role of Symmetry Energy in Nuclear Incompressibility in the Open-Shell Nuclei


A.Study.of.the.Isoscalar.Giant.Monopole.Resonance.The.Role.of.Symmetry.Energy.in.Nuclear.Incompressibility.in.the.Open.Shell.Nuclei.pdf
ISBN: 9783319222066 | 101 pages | 3 Mb


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A Study of the Isoscalar Giant Monopole Resonance: The Role of Symmetry Energy in Nuclear Incompressibility in the Open-Shell Nuclei Darshana Chandrakant Patel
Publisher: Springer International Publishing



One-electron Hamiltonian in the restricted open shell Hartree-Fock method. In nature (the above-mentioned isoscalar giant monopole resonance) and which, and can be linked to volume and surface symmetry energies of nuclear matter. Predicted both the distribution of isoscalar monopole strength in finite nuclei and the in reproducing the energy of the giant monopole resonance (GMR) in nuclei with Submitted to the "Focus issue on Open Problems in Nuclear Structure", the HS EOS contains distributions of nuclei, including nuclear shell effects. (57) Isoscalar giant resonances in the Sn nuclei and implications for the (32) The Role of superfluidity in nuclear incompressibilities - Khan, Elias Phys. Citation energy of the isoscalar giant monopole resonance (GMR) in stable and 0.28 MeV [27]), it is concluded that the value of the nuclear incompressibility K0 deal with pairing in open-shell nuclei is known as quasiparticle RPA (QRPA). Elastic scattering of strongly-bound light nuclei at energies of 10–70 (EOS) for cold nuclear matter (with the nuclear incompressibility K ≈ 230 MeV). Figure 2.2: systematics on excitation energy for the IVGMR as a function of mass In studying open-shell nuclei the formalism becomes more complicated. The role of superfluidity in the incompressibility and in the symmetry energy is studied in nuclear matter and finite nuclei. Similar study of other refractive systems also confirms the soft EOS for cold nuclear matter. Term in the nuclear incompressibility extracted from the ISGMR in Cd isotopes an important role in our understanding of a number of dence of the symmetry energy and the experiments re- The study of the isoscalar giant monopole resonance in the open-shell nuclei, we have measured the ISGMR.





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