Add to ORKGWe present a general method to efficiently design quantum control procedures for non-Markovian problems and illustrate it by optimizing the shape of a laser pulse to prepare a quantum dot in a specific state. The optimization of open quantum system dynamics with strong coupling to structured environments -- where time-local descriptions fail -- is a computationally challenging task. We modify the numerically exact time evolving matrix product operator (TEMPO) method, such that it allows the repeated computation of the time evolution of the reduced system density matrix for various sets of control parameters at very low computational cost. This method is potentially useful for studying numerous quantum optimal control problems, in particular...
We investigate the quantum computing paradigm consisted of obtaining a target state that encodes the...
Funding: E. P. B. acknowledges support from the Irish Research Council (GOIPG/2019/1871). G. E. F. a...
We present a robust quantum optimal control framework for implementing fast entangling gates on ion-...
Funding: G.E.F. acknowledges support from EPSRC (EP/L015110/1). B.W.L. and J.K. acknowledge support ...
Non-Markovian open quantum systems represent the most general dynamics when the quantum system is co...
Precise and efficient control of quantum systems is essential to perform quantum information process...
The work considers an open qutrit system whose density matrix $\rho(t)$ evolution is governed by the...
We study optimal control strategies to optimize the relaxation rate towards the fixed point of a qua...
Quantum optimal control theory is becoming increasingly crucial as quantum devices become more preci...
Quantum control is an important prerequisite for quantum devices [1]. A major obstacle is the fact t...
The ability to characterise a Hamiltonian with high precision is crucial for the implementation of q...
Optimal control is a valuable tool for quantum simulation, allowing for the optimized preparation, m...
Quantum many-body control is among most challenging problems in quantum science, due to computationa...
peer reviewedOptimal control theory is implemented with fully converged hierarchical equations of mo...
In order to model realistic quantum devices it is necessary to simulate quantum systems strongly cou...
We investigate the quantum computing paradigm consisted of obtaining a target state that encodes the...
Funding: E. P. B. acknowledges support from the Irish Research Council (GOIPG/2019/1871). G. E. F. a...
We present a robust quantum optimal control framework for implementing fast entangling gates on ion-...
Funding: G.E.F. acknowledges support from EPSRC (EP/L015110/1). B.W.L. and J.K. acknowledge support ...
Non-Markovian open quantum systems represent the most general dynamics when the quantum system is co...
Precise and efficient control of quantum systems is essential to perform quantum information process...
The work considers an open qutrit system whose density matrix $\rho(t)$ evolution is governed by the...
We study optimal control strategies to optimize the relaxation rate towards the fixed point of a qua...
Quantum optimal control theory is becoming increasingly crucial as quantum devices become more preci...
Quantum control is an important prerequisite for quantum devices [1]. A major obstacle is the fact t...
The ability to characterise a Hamiltonian with high precision is crucial for the implementation of q...
Optimal control is a valuable tool for quantum simulation, allowing for the optimized preparation, m...
Quantum many-body control is among most challenging problems in quantum science, due to computationa...
peer reviewedOptimal control theory is implemented with fully converged hierarchical equations of mo...
In order to model realistic quantum devices it is necessary to simulate quantum systems strongly cou...
We investigate the quantum computing paradigm consisted of obtaining a target state that encodes the...
Funding: E. P. B. acknowledges support from the Irish Research Council (GOIPG/2019/1871). G. E. F. a...
We present a robust quantum optimal control framework for implementing fast entangling gates on ion-...