A relativistic q-deformed Dunkl-Fokker-Planck equation is formulated with supersymmetry and reflection symmetry, yielding exact algebraic solutions for the harmonic oscillator and an effective Hamiltonian after Foldy-Wouthuysen reduction.
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A new functional metric called catability is defined to measure phase-dependent coherence and interference in graphene quantum superpositions using Lie algebra and Green function methods.
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Testing $(q)$-Deformed Dunkl-Fokker-Planck Equation Algebra with Supersymmetry (SUSY) and Foldy-Wouthuysen (FW) Measurement
A relativistic q-deformed Dunkl-Fokker-Planck equation is formulated with supersymmetry and reflection symmetry, yielding exact algebraic solutions for the harmonic oscillator and an effective Hamiltonian after Foldy-Wouthuysen reduction.
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Testing Catability and Coherent Superposition of $2\mathcal{D}$ Graphene via Lie Algebra
A new functional metric called catability is defined to measure phase-dependent coherence and interference in graphene quantum superpositions using Lie algebra and Green function methods.