Quantum Systems Stationary Features, Dynamics and Control
Simulation based on QuTiP modules and methods of full properties of quantum systems including quantum system dynamics and optimal control. Model and calibrated (i.e. realistic) Hamiltonians with arbitrary time dependence for both closed and open quantum systems. Development of theoretical support in quantum technologies field for solid-state systems, leveraging insights from ab initio and related computational methods. Calculation of key quantum mechanical quantities and numerical solutions of time-evolution equations of the Schrödinger and Lindblad types.