Spin relaxation dynamics with a continuous spin environment: the dissipaton equation of motion approach
@inproceedings{Ying2023SpinRD,
title={Spin relaxation dynamics with a continuous spin environment: the dissipaton equation of motion approach},
author={Wenxiang Ying and Yutong Su and Zi-Hao Chen and Yao Wang and Pengfei Huo},
year={2023}
}We present the quantum dynamics of a spin coupling to a bath of independent spins via the dissipaton equation of motion (DEOM) approach. The bath, characterized by a continuous spectral density function, is composed of spins that are independent level systems described by the su (2) Lie algebra. This represents an extreme class of anharmonic environment. Based on the conclusion drawn by Suarez and Silbey [J. Chem. Phys. 95, 9115 (1991)] and Makri [J. Chem. Phys. 111, 6164 (1999)] that the spin…
One Citation
MLQD: A package for machine learning-based quantum dissipative dynamics
- Computer Science, Physics
- 2023
The features of the MLQD package, the technical details, optimization of hyperparameters, visualization of results, and the demonstration of theMLQD's applicability for two widely studied systems, namely the spin-boson model and the Fenna--Matthews--Olson (FMO) complex are described.
4 References
There is a straightforward example with respect to the pure dephasing case, in which ∆ = 0 such that the dephasing dynamics has analytical solution, as discussed by Rao and Kurizki 95
); see also
- Quantum Theory of Angular Momentum
- 1965