Litcius/Paper detail

Quantum control via enhanced shortcuts to adiabaticity

C. Whitty, A. Kiely, A. Ruschhaupt

2020Physical Review Research33 citationsDOIOpen Access PDF

Abstract

Fast and robust quantum control protocols are often based on an idealized approximate description of the relevant quantum system. While this may provide a performance that is close to optimal, improvements can be made by incorporating elements of the full system representation. We propose a technique for such scenarios, called enhanced shortcuts to adiabaticity (eSTA). The eSTA method works for previously intractable Hamiltonians by providing an analytical correction to existing STA protocols. This correction can be easily calculated, and the resulting protocols are outside the class of STA schemes. We demonstrate the effectiveness of the method for three distinct cases: manipulation of an internal atomic state beyond the rotating-wave approximation, transport of a neutral atom in an optical Gaussian trap, and transport of two trapped ions in an anharmonic trap.

Topics & Concepts

PhysicsQuantumGaussianStatistical physicsQuantum mechanicsAtom opticsAnharmonicityQuantum controlQuantum systemAtom (system on chip)State (computer science)Computer scienceQuantum sensorEnergetic neutral atomQuantum stateClass (philosophy)Quantum computerControl (management)Quantum technologyQuantum networkQuantum dynamicsOpen quantum systemQuantum opticsQuantum operationQuantum processQuantum tunnellingQuantum informationQuantum algorithmTopology (electrical circuits)AlgorithmCoherent controlRobust controlQuantum error correctionQuantum Information and CryptographyCold Atom Physics and Bose-Einstein CondensatesMechanical and Optical Resonators