Gauge Field on Brane in M-atrix Theory
Takeshi Inagaki
TL;DR
This paper explores how gauge fields emerge as physical degrees of freedom in D-brane configurations within M-theory, emphasizing the role of space noncommutativity in the BFSS matrix model.
Contribution
It demonstrates the emergence of gauge fields in M-theory's matrix formulation due to space noncommutativity, providing insights into gauge dynamics on branes.
Findings
Gauge fields arise from noncommutative geometry in the BFSS model.
Noncommutativity is essential for gauge degrees of freedom.
The study clarifies the role of space noncommutativity in M-theory gauge dynamics.
Abstract
In this ultra short note, gauge field propagation in D-brane configuration of M theory in the BFSS matrix formulation is considered. Noncommutativity of the space plays a key role for appearance of gauge fields as physical degrees of freedom.
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Taxonomy
TopicsBlack Holes and Theoretical Physics · Noncommutative and Quantum Gravity Theories · Cosmology and Gravitation Theories