Abstract

Validation of quantum adiabaticity through non-inertial frames and its trapped-ion realization.
HU, Chang-Kang; CUI, Jin-Ming; SANTOS, Alan C.; HUANG, Yun-Feng; LI, Chuan-Feng; GUO, Guang-Can; BRITO, Frederico Borges de; SARANDY, Marcelo S.
Abstract: Validity conditions for the adiabatic approximation are useful tools to understand and predict the quantum dynamics. Remarkably, the resonance phenomenon in oscillating quantum systems has challenged the adiabatic theorem. In this scenario, inconsistencies in the application of quantitative adiabatic conditions have led to a sequence of new approaches for adiabaticity. Here, by adopting a different strategy, we introduce a validation mechanism for the adiabatic approximation by driving the quantum system to a non-inertial reference frame. More specifically, we begin by considering several relevant adiabatic approximation conditions previously derived and show that all of them fail by introducing a suitable oscillating Hamiltonian for a single quantum bit (qubit). Then, by evaluating the adiabatic condition in a rotated non-inertial frame, we show that all of these conditions, including the standard adiabatic condition, can correctly describe the adiabatic dynamics in the original frame, either far from resonance or at a resonant point. Moreover, we prove that this validation mechanism can be extended for general multi-particle quantum systems, establishing the conditions for the equivalence of the adiabatic behavior as described in inertial or non-inertial frames. In order to experimentally investigate our method, we consider a hyperfine qubit through a single trapped Ytterbium ion 171Yb+, where the ion hyperfine energy levels are used as degrees of freedom of a two-level system. By monitoring the quantum evolution, we explicitly show the consistency of the adiabatic conditions in the non-inertial frame.
Scientific Reports
v. 9, p. 10449-1-10449-10 2019. - Ano: 2019
Fator de Impacto: 4,011
http://dx.doi.org/10.1038/s41598-019-46754-z
    @article={002955158,author = {HU, Chang-Kang; CUI, Jin-Ming; SANTOS, Alan C.; HUANG, Yun-Feng; LI, Chuan-Feng; GUO, Guang-Can; BRITO, Frederico Borges de; SARANDY, Marcelo S.},title={Validation of quantum adiabaticity through non-inertial frames and its trapped-ion realization},journal={Scientific Reports},note={v. 9, p. 10449-1-10449-10 2019.},year={2019}}

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