Add to ORKGWe derive algebraic bounds on achievable rates for quantum state transfer and entanglement generation in general quantum systems. We apply these bounds to graph-based models of local quantum spin systems to obtain speed limits on these tasks. A comparison to numerical optimal control results for spin chains suggests that unexplored regions of the dynamical landscape may support enhanced performance of key quantum-information-processing tasks
Quantum networks will allow to implement communication tasks beyond the reach of their classical cou...
Accurate manipulations of an open quantum system require a deep knowledge of its controllability pro...
The focus of this paper is on quantum distributed computation, where we investigate whether quantum ...
Quantum computers, like classical ones, need to be capable of sending informa-tion between different ...
We present an investigation of optimal control techniques applied to computational and transport pro...
The advent of Quantum Mechanics offered a new paradigm by which physicists were able to describe the...
The attempt to gain a theoretical understanding of the concept of time in quantum mechanics has trig...
The attempt to gain a theoretical understanding of the concept of time in quantum mechanics has trig...
We use a specific geometric method to determine speed limits to the implementation of quantum gates ...
Quantum mechanics establishes a fundamental bound for the minimum evolution time between two states ...
We study the maximum speed of quantum computation and how it is affected by limitations on physical ...
We use analytical and numerical calculations to obtain speed limits for various unitary quantum oper...
Optimal control theory is a promising candidate for a drastic improvement of the performance of qua...
Optimal control theory is a promising candidate for a drastic improvement of the performance of quan...
The precise, human control of quantum systems, by its definition, must combine models of the classic...
Quantum networks will allow to implement communication tasks beyond the reach of their classical cou...
Accurate manipulations of an open quantum system require a deep knowledge of its controllability pro...
The focus of this paper is on quantum distributed computation, where we investigate whether quantum ...
Quantum computers, like classical ones, need to be capable of sending informa-tion between different ...
We present an investigation of optimal control techniques applied to computational and transport pro...
The advent of Quantum Mechanics offered a new paradigm by which physicists were able to describe the...
The attempt to gain a theoretical understanding of the concept of time in quantum mechanics has trig...
The attempt to gain a theoretical understanding of the concept of time in quantum mechanics has trig...
We use a specific geometric method to determine speed limits to the implementation of quantum gates ...
Quantum mechanics establishes a fundamental bound for the minimum evolution time between two states ...
We study the maximum speed of quantum computation and how it is affected by limitations on physical ...
We use analytical and numerical calculations to obtain speed limits for various unitary quantum oper...
Optimal control theory is a promising candidate for a drastic improvement of the performance of qua...
Optimal control theory is a promising candidate for a drastic improvement of the performance of quan...
The precise, human control of quantum systems, by its definition, must combine models of the classic...
Quantum networks will allow to implement communication tasks beyond the reach of their classical cou...
Accurate manipulations of an open quantum system require a deep knowledge of its controllability pro...
The focus of this paper is on quantum distributed computation, where we investigate whether quantum ...