Usually the ﬁrst order diﬀerential equations should be decoupled to two sets of the second order equ ations of the upper part and the lower part of the Dirac spinor

G ̸= 0 case For the case of G ̸= 0, the parity Π = − (− 1)G, the solution has a matrix form

1 Pith paper cite this work. Polarity classification is still indexing.

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Quantum fluctuation energies over a spatially inhomogeneous field background in a chiral soliton model

nucl-th · 2025-03-06 · unverdicted · novelty 2.0

Finite quantum fluctuation energies over chiral soliton backgrounds are numerically evaluated at different parities and grand spins via phase shift analysis and Born-subtraction renormalization.

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Quantum fluctuation energies over a spatially inhomogeneous field background in a chiral soliton model nucl-th · 2025-03-06 · unverdicted · none · ref 4
Finite quantum fluctuation energies over chiral soliton backgrounds are numerically evaluated at different parities and grand spins via phase shift analysis and Born-subtraction renormalization.

Usually the ﬁrst order diﬀerential equations should be decoupled to two sets of the second order equ ations of the upper part and the lower part of the Dirac spinor

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