Normal form expansions and thermal decay rates of Bose-Einstein condensates with short- and long-range interaction

Abstract: The thermally induced coherent collapse of Bose-Einstein condensates at finite temperature is the dominant decay mechanism near the critical scattering length in condensates with at least partially attractive interaction. The collapse dynamics out of the ground state is mediated by a transition state whose properties determine the corresponding decay rate or lifetime of the condensate. In this paper, we perform normal form expansions of the ground and the transition state of condensates with shortrange scatter… Show more

“…This general numerical implementation allows for practical applications of the procedure, such as e. g. the calculation of thermal decay rates in Bose-Einstein condensates in Refs. [38][39][40][41][42].…”

“…Results using the leading order and including higher orders of the normal form expansion are presented in Refs. [38,39] and [40][41][42], respectively.…”

Construction of Darboux coordinates and Poincaré–Birkhoff normal forms in noncanonical Hamiltonian systems

“…This general numerical implementation allows for practical applications of the procedure, such as e. g. the calculation of thermal decay rates in Bose-Einstein condensates in Refs. [38][39][40][41][42].…”

“…Results using the leading order and including higher orders of the normal form expansion are presented in Refs. [38,39] and [40][41][42], respectively.…”

Construction of Darboux coordinates and Poincaré–Birkhoff normal forms in noncanonical Hamiltonian systems