Beam distortion effects upon focusing an ultrashort petawatt laser pulse to greater than 1022 W/cm2

G. Tiwari; E. Gaul; M. Martinez; G. Dyer; J. Gordon; M. Spinks; T. Toncian; B. Bowers; X. Jiao; R. Kupfer; L. Lisi; E. McCary; R. Roycroft; A. Yandow; G. D. Glenn; M. Donovan; T. Ditmire; B. M. Hegelich

doi:10.1364/OL.44.002764

Beam distortion effects upon focusing an ultrashort petawatt laser pulse to greater than 10²² W/cm²

G. Tiwari, E. Gaul, M. Martinez, G. Dyer, J. Gordon, M. Spinks, T. Toncian, B. Bowers, X. Jiao, R. Kupfer, L. Lisi, E. McCary, R. Roycroft, A. Yandow, G. D. Glenn, M. Donovan, T. Ditmire, B. M. Hegelich

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

37 Scopus citations

Abstract

When an ultrashort laser pulse is tightly focused to a size approaching its central wavelength, the properties of the focused spot diverge from the diffraction-limited case. Here, we report on this change in behavior of a tightly focused petawatt-class laser beam by an f ∕1 off-axis parabolic mirror (OAPM). Considering the effects of residual aberration, the spatial profile of the near-field, and pointing error, we estimate the deviation in peak intensities of the focused spot from the ideal case. We verify that the estimated peak intensity values are within an acceptable error range of the measured values. With the added uncertainties in target alignment, we extend the estimation to infer on-target peak intensities of ≥10²² W∕cm² for a target at the focal plane of this f ∕1 OAPM.

Original language	English
Pages (from-to)	2764-2767
Number of pages	4
Journal	Optics Letters
Volume	44
Issue number	11
DOIs	https://doi.org/10.1364/OL.44.002764
State	Published - 1 Jun 2019
Externally published	Yes

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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Tiwari, G., Gaul, E., Martinez, M., Dyer, G., Gordon, J., Spinks, M., Toncian, T., Bowers, B., Jiao, X., Kupfer, R., Lisi, L., McCary, E., Roycroft, R., Yandow, A., Glenn, G. D., Donovan, M., Ditmire, T., & Hegelich, B. M. (2019). Beam distortion effects upon focusing an ultrashort petawatt laser pulse to greater than 10²² W/cm² Optics Letters, 44(11), 2764-2767. https://doi.org/10.1364/OL.44.002764

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title = "Beam distortion effects upon focusing an ultrashort petawatt laser pulse to greater than 1022 W/cm2 ",

abstract = "When an ultrashort laser pulse is tightly focused to a size approaching its central wavelength, the properties of the focused spot diverge from the diffraction-limited case. Here, we report on this change in behavior of a tightly focused petawatt-class laser beam by an f ∕1 off-axis parabolic mirror (OAPM). Considering the effects of residual aberration, the spatial profile of the near-field, and pointing error, we estimate the deviation in peak intensities of the focused spot from the ideal case. We verify that the estimated peak intensity values are within an acceptable error range of the measured values. With the added uncertainties in target alignment, we extend the estimation to infer on-target peak intensities of ≥1022 W∕cm2 for a target at the focal plane of this f ∕1 OAPM.",

author = "G. Tiwari and E. Gaul and M. Martinez and G. Dyer and J. Gordon and M. Spinks and T. Toncian and B. Bowers and X. Jiao and R. Kupfer and L. Lisi and E. McCary and R. Roycroft and A. Yandow and Glenn, {G. D.} and M. Donovan and T. Ditmire and Hegelich, {B. M.}",

note = "Publisher Copyright: {\textcopyright} 2019 Optical Society of America.",

year = "2019",

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doi = "10.1364/OL.44.002764",

language = "English",

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Tiwari, G, Gaul, E, Martinez, M, Dyer, G, Gordon, J, Spinks, M, Toncian, T, Bowers, B, Jiao, X, Kupfer, R, Lisi, L, McCary, E, Roycroft, R, Yandow, A, Glenn, GD, Donovan, M, Ditmire, T & Hegelich, BM 2019, 'Beam distortion effects upon focusing an ultrashort petawatt laser pulse to greater than 10²² W/cm² ', Optics Letters, vol. 44, no. 11, pp. 2764-2767. https://doi.org/10.1364/OL.44.002764

TY - JOUR

T1 - Beam distortion effects upon focusing an ultrashort petawatt laser pulse to greater than 1022 W/cm2

AU - Tiwari, G.

AU - Gaul, E.

AU - Martinez, M.

AU - Dyer, G.

AU - Gordon, J.

AU - Spinks, M.

AU - Toncian, T.

AU - Bowers, B.

AU - Jiao, X.

AU - Kupfer, R.

AU - Lisi, L.

AU - McCary, E.

AU - Roycroft, R.

AU - Yandow, A.

AU - Glenn, G. D.

AU - Donovan, M.

AU - Ditmire, T.

AU - Hegelich, B. M.

PY - 2019/6/1

Y1 - 2019/6/1

N2 - When an ultrashort laser pulse is tightly focused to a size approaching its central wavelength, the properties of the focused spot diverge from the diffraction-limited case. Here, we report on this change in behavior of a tightly focused petawatt-class laser beam by an f ∕1 off-axis parabolic mirror (OAPM). Considering the effects of residual aberration, the spatial profile of the near-field, and pointing error, we estimate the deviation in peak intensities of the focused spot from the ideal case. We verify that the estimated peak intensity values are within an acceptable error range of the measured values. With the added uncertainties in target alignment, we extend the estimation to infer on-target peak intensities of ≥1022 W∕cm2 for a target at the focal plane of this f ∕1 OAPM.

AB - When an ultrashort laser pulse is tightly focused to a size approaching its central wavelength, the properties of the focused spot diverge from the diffraction-limited case. Here, we report on this change in behavior of a tightly focused petawatt-class laser beam by an f ∕1 off-axis parabolic mirror (OAPM). Considering the effects of residual aberration, the spatial profile of the near-field, and pointing error, we estimate the deviation in peak intensities of the focused spot from the ideal case. We verify that the estimated peak intensity values are within an acceptable error range of the measured values. With the added uncertainties in target alignment, we extend the estimation to infer on-target peak intensities of ≥1022 W∕cm2 for a target at the focal plane of this f ∕1 OAPM.

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JO - Optics Letters

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Beam distortion effects upon focusing an ultrashort petawatt laser pulse to greater than 10²² W/cm²

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