Burn-through of thin aluminum foils by laser-driven ablation

B. Arad; S. Eliezer; Y. Gazit; H. M. Loebenstein; A. Zigler; H. Zmora; S. Zweigenbaum

doi:10.1063/1.325878

Burn-through of thin aluminum foils by laser-driven ablation

B. Arad^*
, S. Eliezer
, Y. Gazit
, H. M. Loebenstein
, A. Zigler
, H. Zmora
, S. Zweigenbaum

^*Corresponding author for this work

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

19 Scopus citations

Abstract

Aluminum foils 1-75 μm thick were irradiated by 500-psec Nd-glass laser pulses with intensities 6×10¹² to 10¹⁴ W/cm ². The reflected and transmitted light and the produced x rays were measured using PIN photodiodes and crystal spectrometers. Two torsion pendula were used to measure the target and the plasma momenta. Both measurements are consistent with a simple hydrodynamic model. We obtain plasma pressures in the range 1.5-13 Mbars, shock-wave velocities between 0.9×10⁶ and 2.6×10⁶ cm/sec, penetration depths of the ablation surface in the domain of 3-10 μm for laser intensities in the range 6×10 ¹² to 10¹⁴ W/cm². The burn-through times (i.e., the times that a hole is opened in the foil) for foils 25, 50, and 75 μm thick are measured to be 8±5, 18±5, and 25±5 nsec, respectively.

Original language	English
Pages (from-to)	6817-6821
Number of pages	5
Journal	Journal of Applied Physics
Volume	50
Issue number	11
DOIs	https://doi.org/10.1063/1.325878
State	Published - 1979
Externally published	Yes

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title = "Burn-through of thin aluminum foils by laser-driven ablation",

abstract = "Aluminum foils 1-75 μm thick were irradiated by 500-psec Nd-glass laser pulses with intensities 6×1012 to 1014 W/cm 2. The reflected and transmitted light and the produced x rays were measured using PIN photodiodes and crystal spectrometers. Two torsion pendula were used to measure the target and the plasma momenta. Both measurements are consistent with a simple hydrodynamic model. We obtain plasma pressures in the range 1.5-13 Mbars, shock-wave velocities between 0.9×106 and 2.6×106 cm/sec, penetration depths of the ablation surface in the domain of 3-10 μm for laser intensities in the range 6×10 12 to 1014 W/cm2. The burn-through times (i.e., the times that a hole is opened in the foil) for foils 25, 50, and 75 μm thick are measured to be 8±5, 18±5, and 25±5 nsec, respectively.",

author = "B. Arad and S. Eliezer and Y. Gazit and Loebenstein, \{H. M.\} and A. Zigler and H. Zmora and S. Zweigenbaum",

year = "1979",

doi = "10.1063/1.325878",

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TY - JOUR

T1 - Burn-through of thin aluminum foils by laser-driven ablation

AU - Arad, B.

AU - Eliezer, S.

AU - Gazit, Y.

AU - Loebenstein, H. M.

AU - Zigler, A.

AU - Zmora, H.

AU - Zweigenbaum, S.

PY - 1979

Y1 - 1979

N2 - Aluminum foils 1-75 μm thick were irradiated by 500-psec Nd-glass laser pulses with intensities 6×1012 to 1014 W/cm 2. The reflected and transmitted light and the produced x rays were measured using PIN photodiodes and crystal spectrometers. Two torsion pendula were used to measure the target and the plasma momenta. Both measurements are consistent with a simple hydrodynamic model. We obtain plasma pressures in the range 1.5-13 Mbars, shock-wave velocities between 0.9×106 and 2.6×106 cm/sec, penetration depths of the ablation surface in the domain of 3-10 μm for laser intensities in the range 6×10 12 to 1014 W/cm2. The burn-through times (i.e., the times that a hole is opened in the foil) for foils 25, 50, and 75 μm thick are measured to be 8±5, 18±5, and 25±5 nsec, respectively.

AB - Aluminum foils 1-75 μm thick were irradiated by 500-psec Nd-glass laser pulses with intensities 6×1012 to 1014 W/cm 2. The reflected and transmitted light and the produced x rays were measured using PIN photodiodes and crystal spectrometers. Two torsion pendula were used to measure the target and the plasma momenta. Both measurements are consistent with a simple hydrodynamic model. We obtain plasma pressures in the range 1.5-13 Mbars, shock-wave velocities between 0.9×106 and 2.6×106 cm/sec, penetration depths of the ablation surface in the domain of 3-10 μm for laser intensities in the range 6×10 12 to 1014 W/cm2. The burn-through times (i.e., the times that a hole is opened in the foil) for foils 25, 50, and 75 μm thick are measured to be 8±5, 18±5, and 25±5 nsec, respectively.

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VL - 50

SP - 6817

EP - 6821

JO - Journal of Applied Physics

JF - Journal of Applied Physics

IS - 11

ER -

Burn-through of thin aluminum foils by laser-driven ablation

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