This paper presents a research framework for investigating world-volume supersymmetry in non-static gauge supermembrane actions, aiming to address gaps in understanding quantum membrane dynamics and to provide a pathway toward covariant quantization of M-theory degrees of freedom.
Key findings
Develops a systematic method for constructing time-dependent gauge conditions preserving essential supersymmetric structure.
Combines geometric insights from the superembedding formalism with novel gauge-fixing procedures.
Proposes validation strategies through S-matrix calculations, symmetry algebra deformations, and comparison with static-gauge results.
Limitations & open questions
The research is largely unexplored and requires further validation through computational and theoretical analysis.