Signatures of Floquet electronic steady states in graphene under continuous-wave mid-infrared irradiation

Yijing Liu; Christopher Yang; Gabriel Gaertner; John Huckabee; Alexey V. Suslov; Gil Refael; Frederik Nathan; Cyprian Lewandowski; Luis E.F. Foa Torres; Iliya Esin; Paola Barbara; Nikolai G. Kalugin

doi:10.1038/s41467-025-57335-2

Signatures of Floquet electronic steady states in graphene under continuous-wave mid-infrared irradiation

Yijing Liu, Christopher Yang, Gabriel Gaertner, John Huckabee, Alexey V. Suslov, Gil Refael, Frederik Nathan, Cyprian Lewandowski, Luis E.F. Foa Torres, Iliya Esin, Paola Barbara, Nikolai G. Kalugin

Department of Physics - at Bar-Ilan University

Bar-Ilan University

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

Abstract

Light-induced phenomena in materials can exhibit exotic behavior that extends beyond equilibrium properties, offering new avenues for understanding and controlling electronic phases. So far, non-equilibrium phenomena in solids have been predominantly explored using femtosecond laser pulses, which generate transient, ultra-fast dynamics. Here, we investigate the steady non-equilibrium regime in graphene induced by a continuous-wave (CW) mid-infrared laser. Our transport measurements reveal signatures of a long-lived Floquet phase, where a non-equilibrium electronic population is stabilized by the interplay between coherent photoexcitation and incoherent phonon cooling. The observation of non-equilibrium steady states using CW lasers stimulates further investigations of low-temperature Floquet phenomena towards Floquet engineering of steady-state phases of matter.

Original language	English
Article number	2057
Number of pages	7
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-57335-2
State	Published - Dec 2025

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-025-57335-2

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title = "Signatures of Floquet electronic steady states in graphene under continuous-wave mid-infrared irradiation",

abstract = "Light-induced phenomena in materials can exhibit exotic behavior that extends beyond equilibrium properties, offering new avenues for understanding and controlling electronic phases. So far, non-equilibrium phenomena in solids have been predominantly explored using femtosecond laser pulses, which generate transient, ultra-fast dynamics. Here, we investigate the steady non-equilibrium regime in graphene induced by a continuous-wave (CW) mid-infrared laser. Our transport measurements reveal signatures of a long-lived Floquet phase, where a non-equilibrium electronic population is stabilized by the interplay between coherent photoexcitation and incoherent phonon cooling. The observation of non-equilibrium steady states using CW lasers stimulates further investigations of low-temperature Floquet phenomena towards Floquet engineering of steady-state phases of matter.",

author = "Yijing Liu and Christopher Yang and Gabriel Gaertner and John Huckabee and Suslov, \{Alexey V.\} and Gil Refael and Frederik Nathan and Cyprian Lewandowski and \{Foa Torres\}, \{Luis E.F.\} and Iliya Esin and Paola Barbara and Kalugin, \{Nikolai G.\}",

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month = dec,

doi = "10.1038/s41467-025-57335-2",

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T1 - Signatures of Floquet electronic steady states in graphene under continuous-wave mid-infrared irradiation

AU - Liu, Yijing

AU - Yang, Christopher

AU - Gaertner, Gabriel

AU - Huckabee, John

AU - Suslov, Alexey V.

AU - Refael, Gil

AU - Nathan, Frederik

AU - Lewandowski, Cyprian

AU - Foa Torres, Luis E.F.

AU - Esin, Iliya

AU - Barbara, Paola

AU - Kalugin, Nikolai G.

PY - 2025/12

Y1 - 2025/12

N2 - Light-induced phenomena in materials can exhibit exotic behavior that extends beyond equilibrium properties, offering new avenues for understanding and controlling electronic phases. So far, non-equilibrium phenomena in solids have been predominantly explored using femtosecond laser pulses, which generate transient, ultra-fast dynamics. Here, we investigate the steady non-equilibrium regime in graphene induced by a continuous-wave (CW) mid-infrared laser. Our transport measurements reveal signatures of a long-lived Floquet phase, where a non-equilibrium electronic population is stabilized by the interplay between coherent photoexcitation and incoherent phonon cooling. The observation of non-equilibrium steady states using CW lasers stimulates further investigations of low-temperature Floquet phenomena towards Floquet engineering of steady-state phases of matter.

AB - Light-induced phenomena in materials can exhibit exotic behavior that extends beyond equilibrium properties, offering new avenues for understanding and controlling electronic phases. So far, non-equilibrium phenomena in solids have been predominantly explored using femtosecond laser pulses, which generate transient, ultra-fast dynamics. Here, we investigate the steady non-equilibrium regime in graphene induced by a continuous-wave (CW) mid-infrared laser. Our transport measurements reveal signatures of a long-lived Floquet phase, where a non-equilibrium electronic population is stabilized by the interplay between coherent photoexcitation and incoherent phonon cooling. The observation of non-equilibrium steady states using CW lasers stimulates further investigations of low-temperature Floquet phenomena towards Floquet engineering of steady-state phases of matter.

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DO - 10.1038/s41467-025-57335-2

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JO - Nature Communications

JF - Nature Communications

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Signatures of Floquet electronic steady states in graphene under continuous-wave mid-infrared irradiation

Abstract

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