Many-body Dynamics of D0--Branes

H. Awata; S. Chaudhuri; M. Li; and D. Minic

arXiv:hep-th/9706083·hep-th·August 25, 2016

Many-body Dynamics of D0--Branes

H. Awata, S. Chaudhuri, M. Li, and D. Minic

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TL;DR

This paper analyzes the growth of the size of D0-brane bound states using a Thomas-Fermi approach, revealing that partonic velocities can be minimized at large N, supporting certain theoretical limits.

Contribution

It introduces a Thomas-Fermi analysis to study the size and velocity behavior of D0-brane bound states at large N.

Findings

01

Size growth with number of partons confirmed

02

Partonic velocities can be arbitrarily small at large N

03

Supports theoretical predictions of bound state behavior

Abstract

We show that the growth of the size with the number of partons holds in a Thomas-Fermi analysis of the threshold bound state of D0--branes. Our results sharpen the evidence that for a fixed value of the eleven dimensional radius the partonic velocities can be made arbitrarily small as one approaches the large N limit.

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