Characterizing few-cycle UV resonant dispersive waves through direct field sampling

Kirk A. Larsen; Christopher Lantigua; Chelsea Kincaid; Felix Allum; Mathew Britton; José L. Godínez Castellanos; Brian Kaufman; Marcel Neuhaus; François Sylla; Kyung Taec Kim; Stephen E. Bradforth; Matthias F. Kling; Joseph S. Robinson; Christian Brahms; John C. Travers; Michael Chini; Matthew Bain; Ruaridh Forbes

doi:10.1364/ol.566906

Characterizing few-cycle UV resonant dispersive waves through direct field sampling

Kirk A. Larsen
, Christopher Lantigua
, Chelsea Kincaid
, Felix Allum
, Mathew Britton
, José L. Godínez Castellanos
, Brian Kaufman
, Marcel Neuhaus
, François Sylla
, Kyung Taec Kim
, Stephen E. Bradforth
, Matthias F. Kling
, Joseph S. Robinson
, Christian Brahms
, John C. Travers
, Michael Chini
, Matthew Bain
, Ruaridh Forbes

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

2 Citations (Scopus)

Abstract

We demonstrate compression of few-cycle ultraviolet (UV) resonant dispersive waves (RDWs) generated in a cascaded hollow capillary fiber setup using a Yb laser system. Temporal characterization is performed using both tunneling ionization with a perturbation for the time-domain observation of an electric field (TIPTOE) and self-diffraction frequency-resolved optical gating (SD-FROG), which show good agreement. Through careful dispersion management, we compress the RDW pulse to 6.9 fs at a ∼390-nm central wavelength. This is the first, to our knowledge, measurement of an RDW using the TIPTOE method and demonstrates the viability of this technique to reliably characterize few-cycle UV pulses with μJ pulse energies.

Original language	English
Article number	4962
Pages (from-to)	4962-4965
Number of pages	4
Journal	Optics Letters
Volume	50
Issue number	16
Early online date	6 Aug 2025
DOIs	https://doi.org/10.1364/ol.566906
Publication status	Published - 15 Aug 2025

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Larsen, K. A., Lantigua, C., Kincaid, C., Allum, F., Britton, M., Castellanos, J. L. G., Kaufman, B., Neuhaus, M., Sylla, F., Kim, K. T., Bradforth, S. E., Kling, M. F., Robinson, J. S., Brahms, C., Travers, J. C., Chini, M., Bain, M., & Forbes, R. (2025). Characterizing few-cycle UV resonant dispersive waves through direct field sampling. Optics Letters, 50(16), 4962-4965. Article 4962. https://doi.org/10.1364/ol.566906

@article{8b2e0e340ae04d3fb948f4ccc2bd238d,

title = "Characterizing few-cycle UV resonant dispersive waves through direct field sampling",

abstract = "We demonstrate compression of few-cycle ultraviolet (UV) resonant dispersive waves (RDWs) generated in a cascaded hollow capillary fiber setup using a Yb laser system. Temporal characterization is performed using both tunneling ionization with a perturbation for the time-domain observation of an electric field (TIPTOE) and self-diffraction frequency-resolved optical gating (SD-FROG), which show good agreement. Through careful dispersion management, we compress the RDW pulse to 6.9 fs at a ∼390-nm central wavelength. This is the first, to our knowledge, measurement of an RDW using the TIPTOE method and demonstrates the viability of this technique to reliably characterize few-cycle UV pulses with μJ pulse energies.",

author = "Larsen, \{Kirk A.\} and Christopher Lantigua and Chelsea Kincaid and Felix Allum and Mathew Britton and Castellanos, \{Jos{\'e} L. God{\'i}nez\} and Brian Kaufman and Marcel Neuhaus and Fran{\c c}ois Sylla and Kim, \{Kyung Taec\} and Bradforth, \{Stephen E.\} and Kling, \{Matthias F.\} and Robinson, \{Joseph S.\} and Christian Brahms and Travers, \{John C.\} and Michael Chini and Matthew Bain and Ruaridh Forbes",

year = "2025",

month = aug,

day = "15",

doi = "10.1364/ol.566906",

language = "English",

volume = "50",

pages = "4962--4965",

journal = "Optics Letters",

issn = "0146-9592",

publisher = "Optica Publishing Group",

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Larsen, KA, Lantigua, C, Kincaid, C, Allum, F, Britton, M, Castellanos, JLG, Kaufman, B, Neuhaus, M, Sylla, F, Kim, KT, Bradforth, SE, Kling, MF, Robinson, JS, Brahms, C , Travers, JC, Chini, M, Bain, M & Forbes, R 2025, 'Characterizing few-cycle UV resonant dispersive waves through direct field sampling', Optics Letters, vol. 50, no. 16, 4962, pp. 4962-4965. https://doi.org/10.1364/ol.566906

TY - JOUR

T1 - Characterizing few-cycle UV resonant dispersive waves through direct field sampling

AU - Larsen, Kirk A.

AU - Lantigua, Christopher

AU - Kincaid, Chelsea

AU - Allum, Felix

AU - Britton, Mathew

AU - Castellanos, José L. Godínez

AU - Kaufman, Brian

AU - Neuhaus, Marcel

AU - Sylla, François

AU - Kim, Kyung Taec

AU - Bradforth, Stephen E.

AU - Kling, Matthias F.

AU - Robinson, Joseph S.

AU - Brahms, Christian

AU - Travers, John C.

AU - Chini, Michael

AU - Bain, Matthew

AU - Forbes, Ruaridh

PY - 2025/8/15

Y1 - 2025/8/15

N2 - We demonstrate compression of few-cycle ultraviolet (UV) resonant dispersive waves (RDWs) generated in a cascaded hollow capillary fiber setup using a Yb laser system. Temporal characterization is performed using both tunneling ionization with a perturbation for the time-domain observation of an electric field (TIPTOE) and self-diffraction frequency-resolved optical gating (SD-FROG), which show good agreement. Through careful dispersion management, we compress the RDW pulse to 6.9 fs at a ∼390-nm central wavelength. This is the first, to our knowledge, measurement of an RDW using the TIPTOE method and demonstrates the viability of this technique to reliably characterize few-cycle UV pulses with μJ pulse energies.

AB - We demonstrate compression of few-cycle ultraviolet (UV) resonant dispersive waves (RDWs) generated in a cascaded hollow capillary fiber setup using a Yb laser system. Temporal characterization is performed using both tunneling ionization with a perturbation for the time-domain observation of an electric field (TIPTOE) and self-diffraction frequency-resolved optical gating (SD-FROG), which show good agreement. Through careful dispersion management, we compress the RDW pulse to 6.9 fs at a ∼390-nm central wavelength. This is the first, to our knowledge, measurement of an RDW using the TIPTOE method and demonstrates the viability of this technique to reliably characterize few-cycle UV pulses with μJ pulse energies.

UR - https://www.scopus.com/pages/publications/105013687872

U2 - 10.1364/ol.566906

DO - 10.1364/ol.566906

M3 - Article

SN - 0146-9592

VL - 50

SP - 4962

EP - 4965

JO - Optics Letters

JF - Optics Letters

IS - 16

M1 - 4962

ER -

Characterizing few-cycle UV resonant dispersive waves through direct field sampling

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