Pandya theorem hide This article has multiple issues. Bitte helfen Sie mit, es zu verbessern oder diskutieren Sie diese Probleme auf der Diskussionsseite. (Erfahren Sie, wie und wann Sie diese Vorlagennachrichten entfernen können) The lead section of this article may need to be rewritten. (Dezember 2021) This article provides insufficient context for those unfamiliar with the subject. (Dezember 2021) The Pandya theorem is a good illustration of the richness of information forthcoming from a judicious use of subtle symmetry principles connecting vastly different sectors of nuclear systems. It is a tool for calculations regarding both particles and holes.
Inhalt 1 Description 2 Geschichte 3 Shell model Monte Carlo approaches to nuclear level densities 4 Features 5 Literaturverzeichnis 6 Anmerkungen 7 References Description Pandya theorem provides a theoretical framework for connecting the energy levels in jj coupling of a nucleon-nucleon and nucleon-hole system. It is also referred to as Pandya Transformation or Pandya Relation in literature. It provides a very useful tool for extending shell model calculations across shells, for systems involving both particles and holes.
The Pandya transformation, which involves angular momentum re-coupling coefficients (Racah-Coefficient), can be used to deduce one-particle one-hole (ph) matrix elements. By assuming the wave function to be "pure" (no configuration mixing), Pandya transformation could be used to set an upper bound to the contributions of 3-body forces to the energies of nuclear states.
History It was first published in 1956 folgendermaßen: Nucleon-Hole Interaction in jj Coupling S.P. Pandya, Phys. Rev. 103, 956 (1956). Received 9 Kann 1956 A theorem connecting the energy levels in jj coupling of a nucleon-nucleon and nucleon-hole system is derived, and applied in particular to Cl38 and K40.
Shell model Monte Carlo approaches to nuclear level densities Since it is by no means obvious how to extract "pairing correlations" from the realistic shell-model calculations, Pandya transform is applied in such cases. Das "pairing Hamiltonian" is an integral part of the residual shell-model interaction. The shell-model Hamiltonian is usually written in the p-p representation, but it also can be transformed to the p-h representation by means of the Pandya transformation. This means that the high-J interaction between pairs can translate into the low-J interaction in the p-h channel. It is only in the mean-field theory that the division into "particle-hole" und "particle-particle" channels appears naturally.
Features Some features of the Pandya transformation are as follows: It relates diagonal and non-diagonal elements. To calculate any particle-hole element, the particle-particle elements for all spins belonging to the orbitals involved are needed; the same holds for the reverse transformation. Because the experimental information is nearly always incomplete, one can only transform from the theoretical particle-particle elements to particle-hole. The Pandya transform does not describe the matrix elements that mix one-particle one-hole and two-particle two-hole states. Deswegen, only states of rather pure one-particle one-hole structure can be treated.
Pandya theorem establishes a relation between particle-particle and particle-hole spectra. Here one considers the energy levels of two nucleons with one in orbit j and another in orbit j' and relate them to the energy levels of a nucleon hole in orbit j and a nucleus in j. Assuming pure j-j coupling and two-body interaction, Pandya (1956) derived the following relation: This was successfully tested in the spectra of Figure 3 shows the results where the discrepancy between the calculated and observed spectra is less than 25 keV.
 Bibliography Pandya, Sudhir P. (1956-08-15). "Nucleon-Hole Interaction in jj Coupling". Körperliche Überprüfung. American Physical Society (APS). 103 (4): 956–957. Bibcode:1956PhRv..103..956P. doi:10.1103/physrev.103.956. ISSN 0031-899X. Racah, G.; Talmi, ich. (1952). "The pairing property of nuclear interactions". Physica. Elsevier BV. 18 (12): 1097–1100. Bibcode:1952Phy....18.1097R. doi:10.1016/s0031-8914(52)80178-8. ISSN 0031-8914. Wigner, E. (1937-01-15). "On the Consequences of the Symmetry of the Nuclear Hamiltonian on the Spectroscopy of Nuclei". Körperliche Überprüfung. American Physical Society (APS). 51 (2): 106–119. Bibcode:1937PhRv...51..106W. doi:10.1103/physrev.51.106. ISSN 0031-899X. Notes ^ From Nuclear To Sub-Hadronic Physics : A Global View Of Indian Efforts by Asoke N Mitra (Vordruck - Nov. 18, 2006) References Lawson, R. D. (1980). Theory of the nuclear shell model. Oxford: Clarendon Press. p. 195. ISBN 0-19-851516-2. OCLC 6938483. OSTI 6688143. (formula 3.68) Muto, Kazuo (2006-10-10). "Double Beta Decay and Spin-Isospin Ground-State Correlations". Journal of Physics: Conference Series. IOP Publishing. 49 (1): 110–115. Bibcode:2006JPhCS..49..110M. doi:10.1088/1742-6596/49/1/024. ISSN 1742-6588. S2CID 250672618. Bobyk, A.; Kamiński, W.A.; Zaręba, P. (1998). "Effects Of The Pion Wave Distortion On The Absorption/Emission Mechanism Of The DCX Reaction On 56Fe". Acta Physica Polonica B. 29 (3): 799. Bibcode:1998AcPPB..29..799B. Asahi, K; Uchida, M; Shimada, K; Nagae, D; Kameda, D; et al. (2006-10-10). "Structure of unstable nuclei from nuclear moments and β decays". Journal of Physics: Conference Series. IOP Publishing. 49 (1): 79–84. Bibcode:2006JPhCS..49...79A. doi:10.1088/1742-6596/49/1/018. ISSN 1742-6588. S2CID 250672135. Molinari, A.; Johnson, M.B.; Bethe, H.A.; Alberico, W.M. (1975). "Effective two-body interaction in simple nuclear spectra". Nuclear Physics A. Elsevier BV. 239 (1): 45–73. Bibcode:1975NuPhA.239...45M. doi:10.1016/0375-9474(75)91132-x. ISSN 0375-9474. Cloessner, Paul F.; Stöffl, Wolfgang; Sheline, Raymond K.; Lanier, Robert G. (1984-02-01). "Low-lying states in 96Nb from the (t,a) reaction". Physical Review C. American Physical Society (APS). 29 (2): 657–659. Bibcode:1984PhRvC..29..657C. doi:10.1103/physrevc.29.657. ISSN 0556-2813. Kategorien: Nuclear physicsPhysics theorems
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