Dual-comb spectroscopy in the deep ultraviolet

John J. McCauley; Mark C. Phillips; Reagan R.D. Weeks; Yu Zhang; Sivanandan S. Harilal; R. Jason Jones

doi:10.1364/OPTICA.516851

Dual-comb spectroscopy in the deep ultraviolet

John J. McCauley
, Mark C. Phillips
, Reagan R.D. Weeks
, Yu Zhang
, Sivanandan S. Harilal
, R. Jason Jones

Optical Sciences

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

19 Scopus citations

Abstract

This Letter reports dual-frequency-comb spectroscopy in the deep ultraviolet used to characterize transient laser-produced plasmas. Dual-comb spectroscopy at these wavelengths enables access to a large number of strong electronic transitions in neutral and ionized atoms and molecules. This broadband dual-frequency-comb system at 265 nm measures multiple transitions in neutral and singly ionized iron atoms in a laser-produced plasma. Analysis of absorption spectra yields time-resolved ion and neutral column densities, excitation temperatures, and electron densities, which are measured down to 10¹⁴ cm⁻³ levels. The results provide insights into low-temperature plasma properties.

Original language	English (US)
Pages (from-to)	460-463
Number of pages	4
Journal	Optica
Volume	11
Issue number	4
DOIs	https://doi.org/10.1364/OPTICA.516851
State	Published - Apr 2024

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics

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10.1364/OPTICA.516851

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title = "Dual-comb spectroscopy in the deep ultraviolet",

abstract = "This Letter reports dual-frequency-comb spectroscopy in the deep ultraviolet used to characterize transient laser-produced plasmas. Dual-comb spectroscopy at these wavelengths enables access to a large number of strong electronic transitions in neutral and ionized atoms and molecules. This broadband dual-frequency-comb system at 265 nm measures multiple transitions in neutral and singly ionized iron atoms in a laser-produced plasma. Analysis of absorption spectra yields time-resolved ion and neutral column densities, excitation temperatures, and electron densities, which are measured down to 1014 cm−3 levels. The results provide insights into low-temperature plasma properties.",

author = "McCauley, \{John J.\} and Phillips, \{Mark C.\} and Weeks, \{Reagan R.D.\} and Yu Zhang and Harilal, \{Sivanandan S.\} and \{Jason Jones\}, R.",

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language = "English (US)",

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AU - McCauley, John J.

AU - Phillips, Mark C.

AU - Weeks, Reagan R.D.

AU - Zhang, Yu

AU - Harilal, Sivanandan S.

AU - Jason Jones, R.

PY - 2024/4

Y1 - 2024/4

N2 - This Letter reports dual-frequency-comb spectroscopy in the deep ultraviolet used to characterize transient laser-produced plasmas. Dual-comb spectroscopy at these wavelengths enables access to a large number of strong electronic transitions in neutral and ionized atoms and molecules. This broadband dual-frequency-comb system at 265 nm measures multiple transitions in neutral and singly ionized iron atoms in a laser-produced plasma. Analysis of absorption spectra yields time-resolved ion and neutral column densities, excitation temperatures, and electron densities, which are measured down to 1014 cm−3 levels. The results provide insights into low-temperature plasma properties.

AB - This Letter reports dual-frequency-comb spectroscopy in the deep ultraviolet used to characterize transient laser-produced plasmas. Dual-comb spectroscopy at these wavelengths enables access to a large number of strong electronic transitions in neutral and ionized atoms and molecules. This broadband dual-frequency-comb system at 265 nm measures multiple transitions in neutral and singly ionized iron atoms in a laser-produced plasma. Analysis of absorption spectra yields time-resolved ion and neutral column densities, excitation temperatures, and electron densities, which are measured down to 1014 cm−3 levels. The results provide insights into low-temperature plasma properties.

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VL - 11

SP - 460

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JO - Optica

JF - Optica

IS - 4

ER -

Dual-comb spectroscopy in the deep ultraviolet

Abstract

ASJC Scopus subject areas

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