Dephasing Dynamics Accessed by High Harmonic Generation: Determination of Electron-Hole Decoherence of Dirac Fermions

Youngjae Kim; Min Jeong Kim; Soonyoung Cha; Shinyoung Choi; Cheol Joo Kim; B. J. Kim; Moon Ho Jo; Jonghwan Kim; Jae Dong Lee

doi:10.1021/acs.nanolett.3c04278

Dephasing Dynamics Accessed by High Harmonic Generation: Determination of Electron-Hole Decoherence of Dirac Fermions

Youngjae Kim, Min Jeong Kim, Soonyoung Cha, Shinyoung Choi, Cheol Joo Kim, B. J. Kim, Moon Ho Jo, Jonghwan Kim, Jae Dong Lee

Department of Physics and Chemistry

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

3 Scopus citations

Abstract

We reveal the critical effect of ultrashort dephasing on the polarization of high harmonic generation in Dirac fermions. As the elliptically polarized laser pulse falls in or slightly beyond the multiphoton regime, the elliptically polarized high harmonic generation is produced and exhibits a characteristic polarimetry of the polarization ellipse, which is found to depend on the decoherence time T₂. T₂ could then be determined to be a few femtoseconds directly from the experimentally observed polarimetry of high harmonics. This shows a sharp contrast with the semimetal regime of higher pump intensity, where the polarimetry is irrelevant to T₂. An access to the dephasing dynamics would extend the prospect of high harmonic generation into the metrology of a femtosecond dynamic process in the coherent quantum control.

Original language	English
Pages (from-to)	1277-1283
Number of pages	7
Journal	Nano Letters
Volume	24
Issue number	4
DOIs	https://doi.org/10.1021/acs.nanolett.3c04278
State	Published - 31 Jan 2024

Bibliographical note

Publisher Copyright:
© 2024 American Chemical Society.

Keywords

decoherence time
graphene
high harmonic generation spectroscopy
quantum master equation

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10.1021/acs.nanolett.3c04278

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title = "Dephasing Dynamics Accessed by High Harmonic Generation: Determination of Electron-Hole Decoherence of Dirac Fermions",

abstract = "We reveal the critical effect of ultrashort dephasing on the polarization of high harmonic generation in Dirac fermions. As the elliptically polarized laser pulse falls in or slightly beyond the multiphoton regime, the elliptically polarized high harmonic generation is produced and exhibits a characteristic polarimetry of the polarization ellipse, which is found to depend on the decoherence time T2. T2 could then be determined to be a few femtoseconds directly from the experimentally observed polarimetry of high harmonics. This shows a sharp contrast with the semimetal regime of higher pump intensity, where the polarimetry is irrelevant to T2. An access to the dephasing dynamics would extend the prospect of high harmonic generation into the metrology of a femtosecond dynamic process in the coherent quantum control.",

keywords = "decoherence time, graphene, high harmonic generation spectroscopy, quantum master equation",

author = "Youngjae Kim and Kim, {Min Jeong} and Soonyoung Cha and Shinyoung Choi and Kim, {Cheol Joo} and Kim, {B. J.} and Jo, {Moon Ho} and Jonghwan Kim and Lee, {Jae Dong}",

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doi = "10.1021/acs.nanolett.3c04278",

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T1 - Dephasing Dynamics Accessed by High Harmonic Generation

T2 - Determination of Electron-Hole Decoherence of Dirac Fermions

AU - Kim, Youngjae

AU - Kim, Min Jeong

AU - Cha, Soonyoung

AU - Choi, Shinyoung

AU - Kim, Cheol Joo

AU - Kim, B. J.

AU - Jo, Moon Ho

AU - Kim, Jonghwan

AU - Lee, Jae Dong

PY - 2024/1/31

Y1 - 2024/1/31

N2 - We reveal the critical effect of ultrashort dephasing on the polarization of high harmonic generation in Dirac fermions. As the elliptically polarized laser pulse falls in or slightly beyond the multiphoton regime, the elliptically polarized high harmonic generation is produced and exhibits a characteristic polarimetry of the polarization ellipse, which is found to depend on the decoherence time T2. T2 could then be determined to be a few femtoseconds directly from the experimentally observed polarimetry of high harmonics. This shows a sharp contrast with the semimetal regime of higher pump intensity, where the polarimetry is irrelevant to T2. An access to the dephasing dynamics would extend the prospect of high harmonic generation into the metrology of a femtosecond dynamic process in the coherent quantum control.

AB - We reveal the critical effect of ultrashort dephasing on the polarization of high harmonic generation in Dirac fermions. As the elliptically polarized laser pulse falls in or slightly beyond the multiphoton regime, the elliptically polarized high harmonic generation is produced and exhibits a characteristic polarimetry of the polarization ellipse, which is found to depend on the decoherence time T2. T2 could then be determined to be a few femtoseconds directly from the experimentally observed polarimetry of high harmonics. This shows a sharp contrast with the semimetal regime of higher pump intensity, where the polarimetry is irrelevant to T2. An access to the dephasing dynamics would extend the prospect of high harmonic generation into the metrology of a femtosecond dynamic process in the coherent quantum control.

KW - decoherence time

KW - graphene

KW - high harmonic generation spectroscopy

KW - quantum master equation

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JO - Nano Letters

JF - Nano Letters

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ER -

Dephasing Dynamics Accessed by High Harmonic Generation: Determination of Electron-Hole Decoherence of Dirac Fermions

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Keywords

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