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Pré-Publication, Document De Travail Année : 2024

Casimir forces in CFT with defects and boundaries

Résumé

We investigate the quantum forces occurring between the defects and/or boundaries of a conformal field theory (CFT). We propose to model imperfect defects and boundaries as localized relevant double-trace operators that deform the CFT. Our focus is on pointlike and codimension-one planar defects. In the case of two parallel membranes, we point out that the CFT 2-point function tends to get confined and develops a tower of resonances with constant decay rate when the operator dimension approaches the free field dimension. Using a functional formalism, we compute the quantum forces induced by the CFT between a variety of configurations of pointlike defects, infinite plates and membranes. Consistency arguments imply that these quantum forces are attractive at any distance. Forces of Casimir-Polder type appear in the UV, while forces of Casimir type appear in the IR, in which case the CFT gets repelled from the defects. Most of the forces behave as a non-integer power of the separation, controlled by the dimension of the double-trace deformation. In the Casimir regime of the membrane-membrane configuration, the quantum pressure behaves universally as 1/$\ell^d$, however information about the double-trace nature of the defects still remains encoded in the strength of the pressure.
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hal-04356105 , version 1 (22-04-2024)

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Philippe Brax, Sylvain Fichet. Casimir forces in CFT with defects and boundaries. 2024. ⟨hal-04356105⟩
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