BPS States and Automorphisms
Abstract
The purpose of the present paper is twofold. In the first part, we provide an algebraic characterization of several families of = 12n n≤ 5 BPS states in M theory, at threshold and non-threshold, by an analysis of the BPS bound derived from the N=1 D=11 SuperPoincar\'e algebra. We determine their BPS masses and their supersymmetry projection conditions, explicitly. In the second part, we develop an algebraic formulation to study the way BPS states transform under GL(32,) transformations, the group of automorphisms of the corresponding SuperPoincar\'e algebra. We prove that all =1/2 non-threshold bound states are SO(32) related with =1/2 BPS states at threshold having the same mass. We provide further examples of this phenomena for less supersymmetric =1/4,1/8 non-threshold bound states.
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