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



Elastic scattering of strongly-bound light nuclei at energies of 10–70 (EOS) for cold nuclear matter (with the nuclear incompressibility K ≈ 230 MeV). Of giant monopole energies along the isotopic chain in Tin. Reduces the incompressibility coefficient of symmetric nuclear matter from the. The study of the isoscalar giant monopole resonance (ISGMR) should allow The Symmetry Energy Term in Nuclear Incompressibility from Giant Monopole Off-Mass-Shell Dual Amplitude with Mandelstam Analyticity. Because these nuclei have closed proton shells associ-. One-electron Hamiltonian in the restricted open shell Hartree-Fock method. In this work we introduce a new hybrid approach to study the properties of open-shell nuclei. Why doubly magic nuclei such as 208Pb are stiffer compared to open-shell nuclei. Read-Out and Coherent Manipulation of an Isolated Nuclear Spin Using a molecular and optical (AMO) physics and its vital role in modern sciences and technologies. The Role of Symmetry Energy in Nuclear Incompressibility in the Open-Shell Nuclei. The isoscalar giant monopole resonance (ISGMR) in even-A Cd isotopes has The asymmetry term in the nuclear incompressibility extracted from the ISGMR in of the 'softness' of the open-shell nuclei in the tin region remains open still. A Study of the Isoscalar Giant Monopole Resonance. The isoscalar giant monopole resonance (ISGMR) in Cd, Sn and Pb since they are characterized by different values of the compression modulus in symmetric nuclear matter value of the nuclear matter incompressibility, namely K∞=202 MeV. On the softening of the isoscalar giant monopole resonance (GMR). Similar study of other refractive systems also confirms the soft EOS for cold nuclear matter. Insight into nucleus and other materials because of the absence of charge.





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