TL;DR
This paper derives equations of motion for multiple M0-branes in eleven-dimensional supergravity, revealing BPS conditions and fuzzy sphere solutions that describe M2-branes, advancing understanding of M-brane interactions.
Contribution
It provides a superembedding-based formulation of multiple M0-brane dynamics with explicit BPS solutions, highlighting the structure and symmetries of the system.
Findings
Equations of motion for multiple M0-branes in supergravity background derived.
BPS conditions identified for 1/2 supersymmetric solutions.
Fuzzy 2-sphere solution describes M2-brane within the system.
Abstract
We present the equations of motion for multiple M0-brane (multiple M-wave or mM0) system in general eleven dimensional supergravity background. These are obtained in the frame of superembedding approach, but have a rigid structure: they can be restored from SO(1,1) x SO(9) symmetry characteristic for M0. BPS conditions for the 1/2 supersymmetric solution of these equations have the fuzzy 2-sphere solution describing M2-brane.
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