ℏ -perturbative solutions of quantum Snyder and Yang models with parameters describing spontaneous symmetry breaking
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2023Metadata
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Original version
Lukierski, J. & Pachol, A. (2022). ℏ -perturbative solutions of quantum Snyder and Yang models with parameters describing spontaneous symmetry breaking [Conference presentation]. Corfu Summer Institute 2022 "School and Workshops on Elementary Particle Physics and Gravity" (CORFU2022) (Vol. 436), Greece. https://doi.org/10.22323/1.436.0327Abstract
We introduce the perturbative ℏ-power series (ℏ - Planck constant) providing the algebraic solutions of D=4 quantum Snyder and Yang models which describe relativistic quantum space-times and Lorentz-covariant quantum phase spaces. We argue that if in these series the zero order (ℏ-independent) terms are non-vanishing they describe the spontaneous symmetry breaking (SSB) parameters of Lie-algebraic symmetries which characterize the considered models (D=4 dS symmetry in Snyder and D=5 dS symmetry in Yang cases). The consecutive terms in ℏ-power series can be calculated explicitly if we supplement the SSB order parameters (Nambu-Goldstone or NG modes) by dual set of commutative momenta, which together define the canonical tensorial Heisenberg algebra.