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Alternative fast quantum logic gates using nonadiabatic Landau-Zener-Stückelberg-Majorana transitions

A. I. Ryzhov, O. V. Ivakhnenko, S. N. Shevchenko, M. Fernando González-Zalba, Franco Nori

2024Physical Review Research14 citationsDOIOpen Access PDF

Abstract

A conventional realization of quantum logic gates and control is based on resonant Rabi oscillations of the occupation probability of the system. This approach has certain limitations and complications, like counter-rotating terms. We study an alternative paradigm for implementing quantum logic gates based on Landau-Zener-Stückelberg-Majorana (LZSM) interferometry with nonresonant driving and the alternation of adiabatic evolution and nonadiabatic transitions. Compared to Rabi oscillations, the main differences are a nonresonant driving frequency and a small number of periods in the external driving. We explore the dynamics of a multilevel quantum system under LZSM drives and optimize the parameters for increasing the gate speed. We define the parameters of the external driving required for implementing a specific quantum logic gate using the adiabatic-impulse model. In particular, we demonstrate the implementations of single-qubit X, Y, Hadamard gates, and two-qubit i and gates using the LZSM transitions. The considered LZSM approach for implementing arbitrary quantum logic gates can be applied to a large variety of multilevel quantum systems and external driving. Published by the American Physical Society 2024

Topics & Concepts

Zener diodeMAJORANAQuantum logicPhysicsQuantum mechanicsQuantumLandau quantizationCondensed matter physicsQuantum computerSuperconductivityTransistorMagnetic fieldVoltageQuantum and electron transport phenomenaQuantum Information and CryptographyQuantum optics and atomic interactions
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