Greater than Five-Order-of-Magnitude Postcompression Temporal Contrast Improvement with an Ionization Plasma Grating

M. R. Edwards; N. M. Fasano; A. M. Giakas; M. M. Wang; J. Griff-Mcmahon; A. Morozov; V. M. Perez-Ramirez; N. Lemos; P. Michel; J. M. Mikhailova

doi:10.1103/PhysRevLett.133.155101

Greater than Five-Order-of-Magnitude Postcompression Temporal Contrast Improvement with an Ionization Plasma Grating

M. R. Edwards, N. M. Fasano, A. M. Giakas, M. M. Wang, J. Griff-Mcmahon, A. Morozov, V. M. Perez-Ramirez, N. Lemos, P. Michel, J. M. Mikhailova

Mechanical & Aerospace Engineering

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

1 Scopus citations

Abstract

High-intensity lasers require suppression of prepulses and other nonideal temporal structure to avoid target disruption before the arrival of the main pulse. To address this, we demonstrate that ionization gratings act as a controllable optical switch for high-power light with a temporal contrast improvement of at least 3×105 and a switching time less than 500 fs. We also show that a grating system can run for hours at 10 Hz without degradation. The contrast improvement from an ionization grating compares favorably to that achievable with plasma mirrors.

Original language	English (US)
Article number	155101
Journal	Physical review letters
Volume	133
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevLett.133.155101
State	Published - Oct 11 2024

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.133.155101

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Edwards, M. R., Fasano, N. M., Giakas, A. M., Wang, M. M., Griff-Mcmahon, J., Morozov, A., Perez-Ramirez, V. M., Lemos, N., Michel, P., & Mikhailova, J. M. (2024). Greater than Five-Order-of-Magnitude Postcompression Temporal Contrast Improvement with an Ionization Plasma Grating. Physical review letters, 133(15), Article 155101. https://doi.org/10.1103/PhysRevLett.133.155101

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abstract = "High-intensity lasers require suppression of prepulses and other nonideal temporal structure to avoid target disruption before the arrival of the main pulse. To address this, we demonstrate that ionization gratings act as a controllable optical switch for high-power light with a temporal contrast improvement of at least 3×105 and a switching time less than 500 fs. We also show that a grating system can run for hours at 10 Hz without degradation. The contrast improvement from an ionization grating compares favorably to that achievable with plasma mirrors.",

author = "Edwards, \{M. R.\} and Fasano, \{N. M.\} and Giakas, \{A. M.\} and Wang, \{M. M.\} and J. Griff-Mcmahon and A. Morozov and Perez-Ramirez, \{V. M.\} and N. Lemos and P. Michel and Mikhailova, \{J. M.\}",

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doi = "10.1103/PhysRevLett.133.155101",

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AU - Edwards, M. R.

AU - Fasano, N. M.

AU - Giakas, A. M.

AU - Wang, M. M.

AU - Griff-Mcmahon, J.

AU - Morozov, A.

AU - Perez-Ramirez, V. M.

AU - Lemos, N.

AU - Michel, P.

AU - Mikhailova, J. M.

PY - 2024/10/11

Y1 - 2024/10/11

N2 - High-intensity lasers require suppression of prepulses and other nonideal temporal structure to avoid target disruption before the arrival of the main pulse. To address this, we demonstrate that ionization gratings act as a controllable optical switch for high-power light with a temporal contrast improvement of at least 3×105 and a switching time less than 500 fs. We also show that a grating system can run for hours at 10 Hz without degradation. The contrast improvement from an ionization grating compares favorably to that achievable with plasma mirrors.

AB - High-intensity lasers require suppression of prepulses and other nonideal temporal structure to avoid target disruption before the arrival of the main pulse. To address this, we demonstrate that ionization gratings act as a controllable optical switch for high-power light with a temporal contrast improvement of at least 3×105 and a switching time less than 500 fs. We also show that a grating system can run for hours at 10 Hz without degradation. The contrast improvement from an ionization grating compares favorably to that achievable with plasma mirrors.

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Greater than Five-Order-of-Magnitude Postcompression Temporal Contrast Improvement with an Ionization Plasma Grating

Abstract

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