Towards the Standard Model in F-theory

Lin, Ling; Weigand, Timo

doi:10.1002/prop.201400072

Cited by 39 publications

(118 citation statements)

References 138 publications

(422 reference statements)

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“…The three The non-abelian part of the Standard Model gauge algebra is engineered via toric methods (so-called "tops" [83,84]). In this case, we obtain five inequivalent tops that realize su(3)×su (2) in codimension one of the elliptic fibration (5.2) [85]. Furthermore, in each such top, we have the freedom of identifying the hypercharge u(1) with a linear combination of the two geometrically realized u(1)s; the orthogonal combination then serves as the selection rule.…”

Section: F-theory Models With Su(3) × Su(2) × U(1) 2 Symmetrymentioning

confidence: 99%

“…Furthermore, in each such top, we have the freedom of identifying the hypercharge u(1) with a linear combination of the two geometrically realized u(1)s; the orthogonal combination then serves as the selection rule. All such identifications compatible with the geometric spectrum have been listed in [85], together with the possible dimension four and five operators of the Standard Model, which are and are not forbidden by the selection rule.…”

Section: F-theory Models With Su(3) × Su(2) × U(1) 2 Symmetrymentioning

confidence: 99%

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TASI Lectures on Abelian and Discrete Symmetries in F-theory

Cvetič¹,

Lin²

2018

Proceedings of Theoretical Advanced Study Institute Summer School 2017 "Physics at the Fundamental Frontier" — PoS(TASI2017)

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In F-theory compactifications, the abelian gauge sector is encoded in global structures of the internal geometry. These structures lie at the intersection of algebraic and arithmetic description of elliptic fibrations: While the Mordell-Weil lattice is related to the continuous abelian sector, the Tate-Shafarevich group is conjectured to encode discrete abelian symmetries in F-theory. In these notes we review both subjects with a focus on recent findings such as the global gauge group and gauge enhancements. We then highlight the application to F-theory model building.

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Section: F-theory Models With Su(3) × Su(2) × U(1) 2 Symmetrymentioning

confidence: 99%

Section: F-theory Models With Su(3) × Su(2) × U(1) 2 Symmetrymentioning

confidence: 99%

TASI Lectures on Abelian and Discrete Symmetries in F-theory

Cvetič¹,

Lin²

2018

Proceedings of Theoretical Advanced Study Institute Summer School 2017 "Physics at the Fundamental Frontier" — PoS(TASI2017)

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“…2 Specifically, when the rank of Φ reduces over a complex codimension one sub-variety Σ ⊂ S, we find localized fields that are trapped on Σ. 3 The reduction of the rank of Φ implies that a larger gauge algebra is preserved over Σ, a phenomenon that exactly mirrors what happens in the geometry, and the localized matter and its representation under the gauge group can be read off from the enhancement pattern following [34].…”

Section: D Gauge Theory and Yukawa Couplingsmentioning

confidence: 91%

Yukawa hierarchies in global F-theory models

et al. 2020

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We argue that global F-theory compactifications to four dimensions generally exhibit higher rank Yukawa matrices from multiple geometric contributions known as Yukawa points. The holomorphic couplings furthermore have large hierarchies for generic complex structure moduli.Unlike local considerations, the compact setup realizes these features all through geometry, and requires no instanton corrections. As an example, we consider a concrete toy model with SU (5) × U (1) gauge symmetry. From the geometry, we find two Yukawa points for the 10 −2565−4 coupling, producing a rank two Yukawa matrix. Our methods allow us to track all complex structure dependencies of the holomorphic couplings and study the ratio numerically. This reveals hierarchies of O(10 5 ) and larger on a full-dimensional subspace of the moduli space.

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“…Our results are not restricted to F-theoretic GUT model building, and we hope that they are also useful in other areas of F-theory, for example in direct constructions of the Standard Model [51,52], in the determination of the network of resolutions of elliptic fibrations [53][54][55][56][57], or in the recent relationship drawn between elliptic fibrations with U(1)s and genus one fibrations with multisections [58][59][60].…”

Section: Introductionmentioning

confidence: 93%

Tate’s algorithm for F-theory GUTs with two U(1)s

Lawrie

Sacco

2015

J. High Energ. Phys.

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We present a systematic study of elliptic fibrations for F-theory realizations of gauge theories with two U(1) factors. In particular, we determine a new class of SU(5) × U(1) 2 fibrations, which can be used to engineer Grand Unified Theories, with multiple, differently charged, 10 matter representations. To determine these models we apply Tate's algorithm to elliptic fibrations with two U(1) symmetries, which are realized in terms of a cubic in P 2 . In the process, we find fibers which are not characterized solely in terms of vanishing orders, but with some additional specialization, which plays a key role in the construction of these novel SU(5) models with multiple 10 matter. We also determine a table of Tate-like forms for Kodaira fibers with two U(1)s.

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Towards the Standard Model in F-theory

Cited by 39 publications

References 138 publications

TASI Lectures on Abelian and Discrete Symmetries in F-theory

TASI Lectures on Abelian and Discrete Symmetries in F-theory

Yukawa hierarchies in global F-theory models

Tate’s algorithm for F-theory GUTs with two U(1)s

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