A fermionic superfluid state for many spinful species - III
George Kastrinakis
TL;DR
This paper extends a fermionic variational wavefunction to include a spin triplet version, enhancing the modeling of superfluid states in multi-species fermionic systems.
Contribution
It introduces a general spin triplet form of a previously developed fermionic wavefunction for multi-species superfluid systems.
Findings
Developed a spin triplet wavefunction variant
Applicable to interacting multi-species fermionic systems
Supports superfluidity in complex multi-spin configurations
Abstract
In previous reports (arXiv:0901.2487, arXiv:1007.0745), we introduced a new fermionic variational wavefunction, suitable for interacting multi-species systems and sustaining superfluidity. This disentangled wavefunction contains a new quantum index. Here we introduce a general spin triplet version of this wavefunction.
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Taxonomy
TopicsCold Atom Physics and Bose-Einstein Condensates · Atomic and Subatomic Physics Research · Molecular spectroscopy and chirality