# Some remarks on the dS conjecture, fluxes and K-theory in IIB toroidal   compactifications

**Authors:** Cesar Damian, Oscar Loaiza-Brito

arXiv: 1906.08766 · 2023-04-28

## TL;DR

This paper explores how topological transitions involving non-BPS branes and fluxes in type IIB toroidal compactifications can destabilize de Sitter vacua, with implications for string theory conjectures.

## Contribution

It introduces a scenario where topological transitions between non-BPS branes and fluxes affect the stability of de Sitter vacua in IIB compactifications.

## Key findings

- Topological transitions can destabilize apparent stable dS vacua.
- Conditions to avoid Freed-Witten anomalies are identified.
- Transitions may lead to short-lived dS minima.

## Abstract

In this note, we present a scenario in which the existence of dS vacua is jeopardized by topological transitions between non-BPS branes and fluxes in type IIB toroidal compactifications. We focus our study on a six-dimensional torus compactification modded out by an orientifold three-plane. In particular, we consider the presence of non-BPS five branes, which allows the construction of apparent stable dS vacua. Since moduli stabilization requires the presence of NS-NS fluxes, we also describe the minimal required conditions to avoid the appearance of Freed-Witten anomalies. Cancellation of these anomalies implies a topological transformation between non-BPS states and fluxes with the same discrete K- theory charge. After the transition, we observe that the scalar potential undergoes major changes, implying that the dS vacua are unstable. We discuss a scenario in which, even if the discrete K-theory charge is globally cancelled, the above transitions could still be relevant, allowing the existence of short-lived dS minima. We briefly comment on how these implications seem to be in concordance with the Refined de Sitter and Trans-Planckian Censorship Conjectures.

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/1906.08766/full.md

## References

47 references — full list in the complete paper: https://tomesphere.com/paper/1906.08766/full.md

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Source: https://tomesphere.com/paper/1906.08766