Submissions from Rene S. Paul

[1]  faKiv:2403.08483 [pdf]
Helical non-perturbative active-matrix simulations of the de Sitter vacuum state in the Chern-Simons-matter (CSM) theory
Comments: 18 pages, 5 figures

We study the active-matrix (AMP) simulation of the de Sitter vacuum state in the Chern-Simons-matter (CSM) theory by solving the first order equations. We first derive the AMP equations for the de Sitter model in the generic case of a zero temperature and zero pressure regime. Then, we compute the corresponding equations in the presence of the variable of interest, i.e., the size of the de Sitter spacetime. The resulting equations have a dependence on the parameters of the AMP model and are characterized by a constant variable and a constant dependent variable. We show that the equations of motion in the presence of the variable of interest, i.e., the size of the de Sitter spacetime, are found to have a constant variable and a constant dependent variable. Furthermore, we compute the corresponding equations in the absence of the variable of interest, i.e., the size of the de Sitter spacetime, and show that the corresponding equations have a constant variable and a constant dependent variable.