Note on Pure D-brane (non-)BPS Black Hole Microstate Counting in Type IIA Superstring Theory

Abstract

In this note, we explore computational algebraic geometry techniques to compute 14th Helicity Trace Index of 4-charge, 18-BPS, N=8 pure D-brane configurations dual to D1-D5-P-KK monopole dyonic black holes. We extend the analysis of our previous work to higher values of charges and address subtleties involving compatible gauge choices for (1,1,1,N) charge configurations. For explicit SUSY state counting, we use a parametric monodromy method for the 4-charge (1,1,1,5) and (1,1,1,6) configurations and find that the results match the U-dual picture. By a different choice of the R-symmetry representations, it is possible to explicitly break all supersymmetry and study related (non-)abelian versions as 4-charge non-BPS pure D-brane systems. Using analytical Gr\"obner bases, we show that the potential has no zero energy configuration. The higher end of the spectrum asymptotes towards the Coulomb branch local minima submanifold representing unbounded D-brane configurations, and the Mixed branch local minima represent bound states at parametrically lower values of the potential. In between, there are several marginally bound stabilizer submanifolds representing partially bounded D-brane configurations. We developed physics-inspired computational techniques to deform the potentials and lift flat directions, thereby cataloging the energy landscape and counting the low-energy stable states with degeneracy.