Quantum corrections suppress the symmetron fifth force by order 10% within a Compton wavelength of a thick planar source and enhance it at larger distances.
Quantum corrections to symmetron fifth-force profiles
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abstract
Nonlinear scalar-tensor theories of gravity have been considered as candidates for dark matter and dark energy. Often, they possess screening mechanisms, which allow the fifth force mediated by the additional scalar degree(s) of freedom to evade detection from local experiments. Their classical behaviour is well studied, but their quantum nature is relatively unexplored. We outline a Green's function method for obtaining the leading-order quantum corrections to the classical symmetron field profile, in the vicinity of a spherically symmetric extended source, in the planar limit. For parameters that experiments had previously ruled out, our calculations indicate that the symmetron force may be weaker than the classical field suggests.
fields
gr-qc 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Quantum corrections to symmetron fifth forces for planar sources
Quantum corrections suppress the symmetron fifth force by order 10% within a Compton wavelength of a thick planar source and enhance it at larger distances.