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Théorie des Interactions Fondamentales
(13) Production(s) de l'année 2021
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EFFECTIVE COMPARISON OF LEPTON MODELS
Auteur(s): Frigerio M.
Conférence invité: 32nd Rencontres de Blois (Blois, FR, 2021-10-17)
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Résumé: We advocate effective field theory to analyse new physics in the lepton sector. When the new states are out of experimental reach, the only parameters relevant for phenomenology are the Wilson coefficients of higher dimensional operators, obtained by decoupling the heavy states. We illustrate the advantages of such effective description for a few representative models of neutrino masses, which may induce a variety of low-energy leptonic observables.
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Euclidean D-branes in Type IIB string theory on Calabi-Yau threefolds
Auteur(s): Alexandrov S., Sen Ashoke, Stefański Bogdan
(Article) Publié:
Journal Of High Energy Physics, vol. 2021 p.044 (2021)
Texte intégral en Openaccess :
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Ref Arxiv: 2110.06949
Ref INSPIRE: 1945075
DOI: 10.1007/JHEP12(2021)044
Ref. & Cit.: NASA ADS
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Résumé: We compute the contribution of Euclidean D-branes in type IIB string theory on Calabi-Yau threefolds to the metric on the hypermultiplet moduli space in the large volume, weak coupling limit. Our results are in perfect agreement with the predictions based on S-duality, mirror symmetry and supersymmetry.
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Renormalization group optimized $\lambda \phi^4$ pressure at next-to-next-to-leading order
Auteur(s): Fernandez L., Kneur J.-L.
(Article) Publié:
-Phys.rev.d, vol. 104 p.096012 (2021)
Texte intégral en Openaccess :
Ref HAL: hal-03319381_v1
Ref Arxiv: 2107.13328
Ref INSPIRE: 1894553
DOI: 10.1103/PhysRevD.104.096012
Ref. & Cit.: NASA ADS
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Résumé: We investigate the renormalization group optimized perturbation theory (RGOPT) at the next-to-next-to-leading order (NNLO) for the thermal scalar field theory. From comparing three thus available successive RGOPT orders, we illustrate the efficient resummation and very good apparent convergence properties of the method. In particular, the remnant renormalization scale dependence of thermodynamical quantities is drastically improved as compared to both standard perturbative expansions and other related resummation methods, such as the screened perturbation theory. Our present results thus constitute a useful first NNLO illustration in view of NNLO applications of this approach to the more involved thermal QCD.
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Multiobjective statistical learning optimization of RGB metalens
Auteur(s): Elsawy Mahmoud, Gourdin A., Binois Mickael, Duvigneau Régis, Felbacq D., Khadir Samira, Genevet Patrice, Lanteri Stéphane
(Article) Publié:
Acs Photonics, vol. 8 p.2498–2508 (2021)
Texte intégral en Openaccess :
Ref HAL: hal-03212349_v2
DOI: 10.1021/acsphotonics.1c00753
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Résumé: Modelling of multi-wavelength metasurfaces relies on adjusting the phase of indi-vidual nanoresonators at several wavelengths.The traditional procedure neglects thenear-field coupling between the nanoresonators, which dramatically reduces the over-all diffraction efficiency, bandwidth, numerical aperture and device diameter.Anotheralternative design strategy is to combine a numerical optimization technique with full-wave simulations to mitigate this problem and optimize the entire metasurface at once.Here, we present a global multiobjective optimization technique that utilizes statisticallearning method to optimize RGB spherical metalenses at the visible wavelengths. Theoptimization procedure, coupled to a high-order full-wave solver, accounts for the nearfield coupling between the resonators. High numerical aperture RGB lenses(NA= 0.47and NA= 0.56) of 8μm and 10μm diameters are optimized with numerical average1focusing efficiencies of 55% and 45%, with an average focusing error smaller than 6%for the RGB colors. The fabricated and experimentally characterized devices present44.16% and 31.5% respective efficiencies. The reported performances represent thehighest focusing efficiencies for highNA >0.5 RGB metalenses obtained so far. Theintegration of multi-wavelength metasurfaces in portable and wearable electronic de-vices requires high performances to offer a variety of applications ranging from classicalimaging to virtual and augmented reality.
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Heavenly metrics, BPS indices and twistors
Auteur(s): Alexandrov S., Pioline Boris
(Article) Publié:
Letters In Mathematical Physics, vol. 111 p.116 (2021)
Texte intégral en Openaccess :
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Ref Arxiv: 2104.10540
DOI: 10.1007/s11005-021-01455-5
Ref. & Cit.: NASA ADS
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Résumé: Recently T. Bridgeland defined a complex hyperk\"ahler metric on the tangent bundle over the space of stability conditions of a triangulated category, based on a Riemann-Hilbert problem determined by the Donaldson-Thomas invariants. This metric is encoded in a function $W(z,\theta)$ satisfying a heavenly equation, or a potential $F(z,\theta)$ satisfying an isomonodromy equation. After recasting the RH problem into a system of TBA-type equations, we obtain integral expressions for both $W$ and $F$ in terms of solutions of that system. These expressions are recognized as conformal limits of the `instanton generating potential' and `contact potential' appearing in studies of D-instantons and BPS black holes. By solving the TBA equations iteratively, we reproduce Joyce's original construction of $F$ as a formal series in the rational DT invariants. Furthermore, we produce similar solutions to deformed versions of the heavenly and isomonodromy equations involving a non-commutative star-product. In the case of a finite uncoupled BPS structure, we rederive the results previously obtained by Bridgeland and obtain the so-called $\tau$ function for arbitrary values of the fiber coordinates $\theta$, in terms of a suitable two-variable generalization of Barnes' $G$ function.
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Canonical structure of minimal varying $\Lambda$ theories
Auteur(s): Alexandrov S., Speziale Simone, Zlosnik Tom
(Article) Publié:
Classical And Quantum Gravity, vol. 38 p.175011 (2021)
Texte intégral en Openaccess :
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Ref Arxiv: 2104.03753
DOI: 10.1088/1361-6382/ac1852
Ref. & Cit.: NASA ADS
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Résumé: Minimal varying $\Lambda$ theories are defined by an action built from the Einstein-Cartan-Holst first order action for gravity with the cosmological constant $\Lambda$ as an independent scalar field, and supplemented by the Euler and Pontryagin densities multiplied by $1/\Lambda$. We identify the canonical structure of these theories which turn out to represent an example of irregular systems. We find five degrees of freedom on generic backgrounds and for generic values of parameters, whereas if the parameters satisfy a certain condition (which includes the most commonly considered Euler case) only three degrees of freedom remain. On de Sitter-like backgrounds the canonical structure changes, and due to an emergent conformal symmetry one degree of freedom drops from the spectrum. We also analyze the self-dual case with an holomorphic action depending only on the self-dual part of the connection. In this case we find two (complex) degrees of freedom, and further discuss the Kodama state, the restriction to de Sitter background and the effect of reality conditions.
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Coulomb branch of N=4 SYM and dilatonic scions in supergravity
Auteur(s): Elander D., Piai Maurizio, Roughley John
(Article) Publié:
-Phys.rev.d, vol. 104 p.046003 (2021)
Texte intégral en Openaccess :
Ref HAL: hal-03186214_v1
Ref Arxiv: 2103.06721
Ref INSPIRE: 1851112
DOI: 10.1103/PhysRevD.104.046003
Ref. & Cit.: NASA ADS
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Résumé: We find a parametrically light dilaton in special confining theories in three dimensions. Their duals form what we call a scion of solutions to the supergravity associated with the large- limit of the Coulomb branch of the Super-Yang-Mills theory. The supergravity description contains one scalar with bulk mass that saturates the Breitenlohner-Freedman unitarity bound. The new solutions are defined within supergravity, they break supersymmetry and scale invariance, and one dimension is compactified on a shrinking circle, yet they are completely regular. An approximate dilaton appears in the spectrum of background fluctuations (or composite states in the confining theory), and becomes parametrically light along a metastable portion of the scion of new supergravity solutions, in close proximity of a tachyonic instability. A first-order phase transition separates stable backgrounds, for which the approximate dilaton is not parametrically light, from metastable and unstable backgrounds, for which the dilaton becomes parametrically light, and eventually tachyonic.
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