Max Zimet scite author profile

In this paper, we address the following two closely related questions. First, we complete the classification of finite symmetry groups of type IIA string theory on K 3 × R 6 , where Niemeier lattices play an important role. This extends earlier results by including points in the moduli space with enhanced gauge symmetries in spacetime, or, equivalently, where the world-sheet CFT becomes singular. After classifying the symmetries as abstract groups, we study how they act on the BPS states of the theory. In particular, we classify the conjugacy classes in the T-duality group O + ( 4,20 ) which represent physically distinct symmetries. Subsequently, we make two conjectures regarding the connection between the corresponding twining genera of K 3 CFTs and Conway and umbral moonshine, building upon earlier work on the relation between moonshine and the K 3 elliptic genus.

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de Sitter vacua from ten dimensions

Kachru

Kim

McAllister

et al. 2021

J. High Energ. Phys.

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We analyze the de Sitter construction of [1] using ten-dimensional supergravity, finding exact agreement with the four-dimensional effective theory. Starting from the fermionic couplings in the D7-brane action, we derive the ten-dimensional stress-energy due to gaugino condensation on D7-branes. We demonstrate that upon including this stress-energy, as well as that due to anti-D3-branes, the ten-dimensional equations of motion require the four-dimensional curvature to take precisely the value determined by the four-dimensional effective theory of [1].

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No more walls! A tale of modularity, symmetry, and wall crossing for 1/4 BPS dyons

Paquette

Volpato

Zimet

2017

J. High Energ. Phys.

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Abstract:We determine the generating functions of 1/4 BPS dyons in a class of 4d N = 4 string vacua arising as CHL orbifolds of K3×T 2 , a classification of which has been recently completed. We show that all such generating functions obey some simple physical consistency conditions that are very often sufficient to fix them uniquely. The main constraint we impose is the absence of unphysical walls of marginal stability: discontinuities of 1/4 BPS degeneracies can only occur when 1/4 BPS dyons decay into pairs of 1/2 BPS states. Formally, these generating functions in spacetime can be described as multiplicative lifts of certain supersymmetric indices (twining genera) on the worldsheet of the corresponding nonlinear sigma model on K3. As a consequence, our procedure also leads to an explicit derivation of almost all of these twining genera. The worldsheet indices singled out in this way match precisely a set of functions of interest in moonshine, as predicted by a recent conjecture.

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K3 String Theory, Lattices and Moonshine

Cheng¹,

Harrison²,

Volpato³

et al. 2016

Preprint

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de Sitter Vacua from Ten Dimensions

Kachru¹,

Kim²,

McAllister³

et al. 2019

Preprint

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Max Zimet

K3 string theory, lattices and moonshine

de Sitter vacua from ten dimensions

No more walls! A tale of modularity, symmetry, and wall crossing for 1/4 BPS dyons

K3 String Theory, Lattices and Moonshine

de Sitter Vacua from Ten Dimensions

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