Supermembranes with fewer supersymmetries
Abstract
The usual supermembrane solution of D=11 supergravity interpolates between R11 and AdS4 × round~S7, has symmetry P3 × SO(8) and preserves 1/2 of the spacetime supersymmetries for either orientation of the round S7. Here we show that more general supermembrane solutions may be obtained by replacing the round S7 by any seven-dimensional Einstein space M7. These have symmetry P3 × G, where G is the isometry group of M7. For example, G=SO(5) × SO(3) for the squashed S7. For one orientation of M7, they preserve N/16 spacetime supersymmetries where 1≤ N ≤ 8 is the number of Killing spinors on M7; for the opposite orientation they preserve no supersymmetries since then M7 has no Killing spinors. For example N=1 for the left-squashed S7 owing to its G2 Weyl holonomy, whereas N=0 for the right-squashed S7. All these solutions saturate the same Bogomol'nyi bound between the mass and charge. Similar replacements of SD-p-2 by Einstein spaces MD-p-2 yield new super p-brane solutions in other spacetime dimensions D≤ 11. In particular, simultaneous dimensional reduction of the above D=11 supermembranes on S1 leads to a new class of D=10 elementary string solutions which also have fewer supersymmetries.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.