📝 SummarXiv

Abstract

We present the first rigorous one-loop demonstration that the Lorentz-covariant M2-brane matrix model with Restricted Volume-Preserving Deformations (RVPD) preserves the quantum stability of its BPS membranes. By exploiting the closure of the restricted kappa-symmetry with RVPD, the BRST complex terminates without higher ghosts and the gauge-fixed measure remains under analytic control. Performing the one-loop expansion around BPS backgrounds, we match bosonic and fermionic spectra, prove that the RVPD ghost determinant is benign, and evaluate the determinants through zeta regularization. The resulting Main Theorem establishes that the 2D, 4D, 6D, and 8D noncommutative membranes stay stable, whereas the 10D configuration inevitably develops a tachyonic mode. Our analysis unifies the treatment of zero modes, connects the effective action to central charges, and clarifies the relationship with BFSS, BLG/ABJM, and prospective M5-brane matrix models, providing a roadmap for extending RVPD-based formulations.