# Quantum vacuum effects for a massive Bosonic string in background   B-field

**Authors:** Y.Koohsarian, A.Shirzad

arXiv: 1702.01343 · 2017-02-07

## TL;DR

This paper investigates how a background B-field influences the Casimir effect and ground-state mass of a massive bosonic string, revealing conditions for stable, non-tachyonic ground states.

## Contribution

It provides a detailed analysis of the B-field's impact on the Casimir energy and ground-state mass of a bosonic string, including the emergence of non-tachyonic states at high B-fields.

## Key findings

- Casimir energy depends on B-field and string mass
- B-field correction stabilizes the string's ground state
- High B-field leads to non-tachyonic ground states

## Abstract

We study the Casimir effect for a bosonic string extended between D-branes, and living in a flat space with an antisymmetric background B-field. We find the Casimir energy as a function of theB-field, and the mass-parameter of the string, and accordingly we obtain a B-dependence correction term to the ground-state mass of the string. We show that for sufficiently large B-field, the ground state of the string contains real (i.e. non-Tachyonic) particles.

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Source: https://tomesphere.com/paper/1702.01343