Abstract
We derive bounds on the number of Abelian gauge group factors in six-dimensional gravitational theories with minimal supersymmetry and in their $F$-theoretic realizations. These bounds follow by requiring consistency of certain Bogomol'nyi-Prasad-Sommerfield strings in the spectrum of the theory, as recently proposed in the literature. Under certain assumptions, this approach constrains the number of Abelian gauge group factors in six-dimensional supergravity theories with at least one tensor multiplet to be $N\ensuremath{\le}20$ (or $N\ensuremath{\le}22$ in the absence of charged matter). For any geometric $F$-theory realization with at least one tensor multiplet, we establish the bound $N\ensuremath{\le}16$ by demanding unitarity of a heterotic solitonic string which exists even in the absence of a perturbative heterotic dual. This result extends to four-dimensional $F$-theory vacua on any blowup of a rational fibration. Our findings lead to universal bounds on the rank of the Mordell-Weil group of elliptically fibered Calabi-Yau 3-folds.
Highlights
It is widely believed that the compatibility of a gauge theory with quantum gravity imposes extra constraints on the structure of the theory, which may not be visible from the consistency of the low-energy effective theory alone
We report on new bounds on the maximal number of Abelian gauge group factors in six-dimensional gravitational theories with N 1⁄4 ð1; 0Þ supersymmetry
As long as the nondegenerate string associated with C is itself not an superconformal field theories (SCFTs) instanton or little string theories (LSTs) string, bounds of the form (9) can be derived from it at generic points in the moduli space even though at special points in the moduli space the SCFT may degenerate to a sum of instanton strings
Summary
It is widely believed that the compatibility of a gauge theory with quantum gravity imposes extra constraints on the structure of the theory, which may not be visible from the consistency of the low-energy effective theory alone. We report on new bounds on the maximal number of Abelian gauge group factors in six-dimensional gravitational theories with N 1⁄4 ð1; 0Þ supersymmetry This class of theories is known to be highly constrained by the consistent cancellation of gauge and gravitational anomalies. In a pure supergravity analysis, bounds can be established modulo certain assumptions on the integrality and generic nondegeneracy of a class of BPS strings Our results on six-dimensional F-theory with T ≥ 1 should constrain the charge pattern for Abelian gauge groups, as these must be embeddable into E8 × E8
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