Inverse Mpemba Effect Demonstrated on a Single Trapped Ion Qubit

Shahaf Aharony Shapira; Yotam Shapira; Jovan Markov; Gianluca Teza; Nitzan Akerman; Oren Raz; Roee Ozeri

doi:10.1103/PhysRevLett.133.010403

Inverse Mpemba Effect Demonstrated on a Single Trapped Ion Qubit

Shahaf Aharony Shapira, Yotam Shapira, Jovan Markov, Gianluca Teza, Nitzan Akerman, Oren Raz, Roee Ozeri

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

The Mpemba effect is a counterintuitive phenomena in which a hot system reaches a cold temperature faster than a colder system, under otherwise identical conditions. Here, we propose a quantum analog of the Mpemba effect, on the simplest quantum system, a qubit. Specifically, we show it exhibits an inverse effect, in which a cold qubit reaches a hot temperature faster than a hot qubit. Furthermore, in our system a cold qubit can heat up exponentially faster, manifesting the strong version of the effect. This occurs only for sufficiently coherent systems, making this effect quantum mechanical, i.e., due to interference effects. We experimentally demonstrate our findings on a single Sr+88 trapped ion qubit. The existence of this anomalous relaxation effect in simple quantum systems reveals its fundamentality, and may have a role in designing and operating quantum information processing devices.

Original language	English
Article number	010403
Journal	Physical Review Letters
Volume	133
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevLett.133.010403
State	Published - 5 Jul 2024
Externally published	Yes

ASJC Scopus subject areas

General Physics and Astronomy

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10.1103/PhysRevLett.133.010403

Cite this

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title = "Inverse Mpemba Effect Demonstrated on a Single Trapped Ion Qubit",

abstract = "The Mpemba effect is a counterintuitive phenomena in which a hot system reaches a cold temperature faster than a colder system, under otherwise identical conditions. Here, we propose a quantum analog of the Mpemba effect, on the simplest quantum system, a qubit. Specifically, we show it exhibits an inverse effect, in which a cold qubit reaches a hot temperature faster than a hot qubit. Furthermore, in our system a cold qubit can heat up exponentially faster, manifesting the strong version of the effect. This occurs only for sufficiently coherent systems, making this effect quantum mechanical, i.e., due to interference effects. We experimentally demonstrate our findings on a single Sr+88 trapped ion qubit. The existence of this anomalous relaxation effect in simple quantum systems reveals its fundamentality, and may have a role in designing and operating quantum information processing devices.",

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AU - Akerman, Nitzan

AU - Raz, Oren

AU - Ozeri, Roee

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AB - The Mpemba effect is a counterintuitive phenomena in which a hot system reaches a cold temperature faster than a colder system, under otherwise identical conditions. Here, we propose a quantum analog of the Mpemba effect, on the simplest quantum system, a qubit. Specifically, we show it exhibits an inverse effect, in which a cold qubit reaches a hot temperature faster than a hot qubit. Furthermore, in our system a cold qubit can heat up exponentially faster, manifesting the strong version of the effect. This occurs only for sufficiently coherent systems, making this effect quantum mechanical, i.e., due to interference effects. We experimentally demonstrate our findings on a single Sr+88 trapped ion qubit. The existence of this anomalous relaxation effect in simple quantum systems reveals its fundamentality, and may have a role in designing and operating quantum information processing devices.

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Inverse Mpemba Effect Demonstrated on a Single Trapped Ion Qubit

Abstract

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