Approaching the Quantum Speed Limit with Global-Local Optimization

Jens Jakob S{\o}rensen; Mikel Aranburu; Till Heinzel; Jacob Sherson

arXiv:1802.07521·quant-ph·February 22, 2018·1 cites

Approaching the Quantum Speed Limit with Global-Local Optimization

Jens Jakob S{\o}rensen, Mikel Aranburu, Till Heinzel, Jacob Sherson

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TL;DR

This paper introduces a hybrid global-local optimization algorithm designed to enhance quantum control, achieving faster solutions for ultracold Bose-Einstein condensate manipulation.

Contribution

The paper presents a novel combination of local search and evolutionary algorithms for quantum control optimization, improving solution speed.

Findings

01

Faster quantum control solutions achieved

02

Effective optimization for Bose-Einstein condensates

03

Hybrid algorithm outperforms traditional methods

Abstract

We propose a Global-Local optimization algorithm for quantum control that combines standard local search methodologies with evolutionary algorithms. This allows us to find faster solutions to a set of problems relating to ultracold control of Bose-Einstein condensates.

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Taxonomy

TopicsQuantum Information and Cryptography · Orbital Angular Momentum in Optics