SPEEDUP code for calculation of transition amplitudes via the effective action approach. We present Path Integral Monte Carlo C code for calculation of quantum mechanical transition amplitudes for 1D models. The SPEEDUP C code is based on the use of higher-order short-time effective actions and implemented to the maximal order $p=18$ in the time of propagation (Monte Carlo time step), which substantially improves the convergence of discretized amplitudes to their exact continuum values. Symbolic derivation of higher-order effective actions is implemented in SPEEDUP Mathematica codes, using the recursive Schr”odinger equation approach. In addition to the general 1D quantum theory, developed Mathematica codes are capable of calculating effective actions for specific models, for general 2D and 3D potentials, as well as for a general many-body theory in arbitrary number of spatial dimensions.
References in zbMATH (referenced in 2 articles , 1 standard article )
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- Balaž, Antun; Vidanović, Ivana; Stojiljković, Danica; Vudragović, Dušan; Belić, Aleksandar; Bogojević, Aleksandar: SPEEDUP code for calculation of transition amplitudes via the effective action approach (2012)
- Balaž, Antun; Vidanović, Ivana; Bogojević, Aleksandar; Pelster, Axel: Ultra-fast converging path-integral approach for rotating ideal Bose-Einstein condensates (2010)