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Main Authors: Ho, Pei-Ming, Kawai, Hikaru, Steinacker, Harold C.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.06646
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author Ho, Pei-Ming
Kawai, Hikaru
Steinacker, Harold C.
author_facet Ho, Pei-Ming
Kawai, Hikaru
Steinacker, Harold C.
contents The matrix models are non-perturbative formulations of string theory, from which many believe that spacetime arises. The matrix fluctuations around the spacetime thus created should represent both matter and gravitational fields. In this paper, we discuss how the gravitational field emerges from the IIB matrix model. In particular, we consider how diffeomorphism invariance arises and how unitarity is guaranteed in this theory. Specifically, we consider matrices as bilocal fields and discuss how the Lorentz-invariant vacuum and low-energy excitations around it can be expressed. We then discuss how the conditions for the theory to be unitary can be written in terms of bilocal fields. We argue that in the low-energy limit, the bilocal fields are reduced to local fields consisting of a finite number of massless fields and an infinite number of massive fields, satisfying unitarity.
format Preprint
id arxiv_https___arxiv_org_abs_2509_06646
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle General Relativity in IIB Matrix Model
Ho, Pei-Ming
Kawai, Hikaru
Steinacker, Harold C.
High Energy Physics - Theory
The matrix models are non-perturbative formulations of string theory, from which many believe that spacetime arises. The matrix fluctuations around the spacetime thus created should represent both matter and gravitational fields. In this paper, we discuss how the gravitational field emerges from the IIB matrix model. In particular, we consider how diffeomorphism invariance arises and how unitarity is guaranteed in this theory. Specifically, we consider matrices as bilocal fields and discuss how the Lorentz-invariant vacuum and low-energy excitations around it can be expressed. We then discuss how the conditions for the theory to be unitary can be written in terms of bilocal fields. We argue that in the low-energy limit, the bilocal fields are reduced to local fields consisting of a finite number of massless fields and an infinite number of massive fields, satisfying unitarity.
title General Relativity in IIB Matrix Model
topic High Energy Physics - Theory
url https://arxiv.org/abs/2509.06646