Litcius/Paper detail

Nuclear states projected from a pair condensate

Yi Lu, Y. Lei, Calvin W. Johnson, Jiajie Shen

2022Physical review. C14 citationsDOIOpen Access PDF

Abstract

Atomic nuclei exhibit deformation, pairing correlations, and rotational symmetries. To meet these competing demands in a computationally tractable formalism, we revisit the use of general pair condensates with good particle number as a trial wave function for even-even nuclei. After minimizing the energy of the condensate, allowing for general triaxial deformations, we project out states with good angular momentum with a fast projection technique. To show applicability, we present example calculations from pair condensates in several model spaces and compare against angular-momentum projected Hartree-Fock and full configuration-interaction shell-model calculations. This approach successfully generates spherical, vibrational, and rotational spectra, demonstrating potential for modeling medium- to heavy-mass nuclei.

Topics & Concepts

Angular momentumPhysicsPairingFormalism (music)Wave functionHomogeneous spaceSpectral lineHartree–Fock methodSHELL modelTotal angular momentum quantum numberAtomic nucleusAngular momentum operatorAngular momentum couplingClassical mechanicsQuantum mechanicsQuantum electrodynamicsAtomic physicsGeometryMathematicsMusicalVisual artsArtSuperconductivityNuclear physics research studiesQuantum Chromodynamics and Particle InteractionsAtomic and Molecular Physics