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Exploring adiabatic quantum trajectories via optimal control
Exploring adiabatic quantum trajectories via optimal control
by Brif, Constantin , Grace, Matthew D , Young, Kevin C , Sarovar, Mohan
in Accuracy / adiabatic approximation / Adiabatic flow / adiabatic quantum computation / Control theory / Dynamical systems / Dynamics / Energy gap / Evolution / Functionals / Ground state / Mathematical analysis / Mathematical models / multiobjective optimization / Optimal control / Optimization / Physics / Quantum computing / quantum optical control theory / Time dependence / Trajectories / Trajectory control
2014
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Exploring adiabatic quantum trajectories via optimal control
by Brif, Constantin , Grace, Matthew D , Young, Kevin C , Sarovar, Mohan
in Accuracy / adiabatic approximation / Adiabatic flow / adiabatic quantum computation / Control theory / Dynamical systems / Dynamics / Energy gap / Evolution / Functionals / Ground state / Mathematical analysis / Mathematical models / multiobjective optimization / Optimal control / Optimization / Physics / Quantum computing / quantum optical control theory / Time dependence / Trajectories / Trajectory control
2014
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Exploring adiabatic quantum trajectories via optimal control
Exploring adiabatic quantum trajectories via optimal control
by Brif, Constantin , Grace, Matthew D , Young, Kevin C , Sarovar, Mohan
in Accuracy / adiabatic approximation / Adiabatic flow / adiabatic quantum computation / Control theory / Dynamical systems / Dynamics / Energy gap / Evolution / Functionals / Ground state / Mathematical analysis / Mathematical models / multiobjective optimization / Optimal control / Optimization / Physics / Quantum computing / quantum optical control theory / Time dependence / Trajectories / Trajectory control
2014

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Exploring adiabatic quantum trajectories via optimal control
Exploring adiabatic quantum trajectories via optimal control
Journal Article

Exploring adiabatic quantum trajectories via optimal control

Brif, Constantin,
Grace, Matthew D,
Young, Kevin C,
Sarovar, Mohan
2014
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Overview
Adiabatic quantum computation employs a slow change of a time-dependent control function (or functions) to interpolate between an initial and final Hamiltonian, which helps to keep the system in the instantaneous ground state. When the evolution time is finite, the degree of adiabaticity (quantified in this work as the average ground-state population during evolution) depends on the particulars of a dynamic trajectory associated with a given set of control functions. We use quantum optimal control theory with a composite objective functional to numerically search for controls that achieve the target final state with a high fidelity while simultaneously maximizing the degree of adiabaticity. Exploring the properties of optimal adiabatic trajectories in model systems elucidates the dynamic mechanisms that suppress unwanted excitations from the ground state. Specifically, we discover that the use of multiple control functions makes it possible to access a rich set of dynamic trajectories, some of which attain a significantly improved performance (in terms of both fidelity and adiabaticity) through the increase of the energy gap during most of the evolution time.
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Publisher
IOP Publishing
Subject

Accuracy

/ adiabatic approximation

/ Adiabatic flow

/ adiabatic quantum computation

/ Control theory

/ Dynamical systems

/ Dynamics

/ Energy gap

/ Evolution

/ Functionals

/ Ground state

/ Mathematical analysis

/ Mathematical models

/ multiobjective optimization

/ Optimal control

/ Optimization

/ Physics

/ Quantum computing

/ quantum optical control theory

/ Time dependence

/ Trajectories

/ Trajectory control

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