Indirect monitoring shot-to-shot shock waves strength reproducibility during pump-probe experiments

T. A. Pikuz; A. Ya Faenov; N. Ozaki; N. J. Hartley; B. Albertazzi; T. Matsuoka; K. Takahashi; H. Habara; Y. Tange; S. Matsuyama; K. Yamauchi; R. Ochante; K. Sueda; O. Sakata; T. Sekine; T. Sato; Y. Umeda; Y. Inubushi; T. Yabuuchi; T. Togashi; T. Katayama; M. Yabashi; M. Harmand; G. Morard; M. Koenig; V. Zhakhovsky; N. Inogamov; A. S. Safronova; A. Stafford; I. Yu Skobelev; S. A. Pikuz; T. Okuchi; Y. Seto; K. A. Tanaka; T. Ishikawa; R. Kodama

doi:10.1063/1.4958796

Indirect monitoring shot-to-shot shock waves strength reproducibility during pump-probe experiments

T. A. Pikuz, A. Ya Faenov, N. Ozaki, N. J. Hartley, B. Albertazzi, T. Matsuoka, K. Takahashi, H. Habara, Y. Tange, S. Matsuyama, K. Yamauchi, R. Ochante, K. Sueda, O. Sakata, T. Sekine, T. Sato, Y. Umeda, Y. Inubushi, T. Yabuuchi, T. TogashiT. Katayama, M. Yabashi, M. Harmand, G. Morard, M. Koenig, V. Zhakhovsky, N. Inogamov, A. S. Safronova, A. Stafford, I. Yu Skobelev, S. A. Pikuz, T. Okuchi, Y. Seto, K. A. Tanaka, T. Ishikawa, R. Kodama

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Abstract

We present an indirect method of estimating the strength of a shock wave, allowing on line monitoring of its reproducibility in each laser shot. This method is based on a shot-to-shot measurement of the X-ray emission from the ablated plasma by a high resolution, spatially resolved focusing spectrometer. An optical pump laser with energy of 1.0 J and pulse duration of ∼660 ps was used to irradiate solid targets or foils with various thicknesses containing Oxygen, Aluminum, Iron, and Tantalum. The high sensitivity and resolving power of the X-ray spectrometer allowed spectra to be obtained on each laser shot and to control fluctuations of the spectral intensity emitted by different plasmas with an accuracy of ∼2%, implying an accuracy in the derived electron plasma temperature of 5%-10% in pump-probe high energy density science experiments. At nano- and sub-nanosecond duration of laser pulse with relatively low laser intensities and ratio Z/A ∼ 0.5, the electron temperature follows T_e ∼ I_las^2/3. Thus, measurements of the electron plasma temperature allow indirect estimation of the laser flux on the target and control its shot-to-shot fluctuation. Knowing the laser flux intensity and its fluctuation gives us the possibility of monitoring shot-to-shot reproducibility of shock wave strength generation with high accuracy.

Original language	English
Article number	035901
Journal	Journal of Applied Physics
Volume	120
Issue number	3
DOIs	https://doi.org/10.1063/1.4958796
Publication status	Published - Jul 21 2016
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1063/1.4958796

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Pikuz, T. A., Faenov, A. Y., Ozaki, N., Hartley, N. J., Albertazzi, B., Matsuoka, T., Takahashi, K., Habara, H., Tange, Y., Matsuyama, S., Yamauchi, K., Ochante, R., Sueda, K., Sakata, O., Sekine, T., Sato, T., Umeda, Y., Inubushi, Y., Yabuuchi, T., ... Kodama, R. (2016). Indirect monitoring shot-to-shot shock waves strength reproducibility during pump-probe experiments. Journal of Applied Physics, 120(3), [035901]. https://doi.org/10.1063/1.4958796

Pikuz, TA, Faenov, AY, Ozaki, N, Hartley, NJ, Albertazzi, B, Matsuoka, T, Takahashi, K, Habara, H, Tange, Y, Matsuyama, S, Yamauchi, K, Ochante, R, Sueda, K, Sakata, O, Sekine, T, Sato, T, Umeda, Y, Inubushi, Y, Yabuuchi, T, Togashi, T, Katayama, T, Yabashi, M, Harmand, M, Morard, G, Koenig, M, Zhakhovsky, V, Inogamov, N, Safronova, AS, Stafford, A, Skobelev, IY, Pikuz, SA, Okuchi, T, Seto, Y, Tanaka, KA, Ishikawa, T & Kodama, R 2016, 'Indirect monitoring shot-to-shot shock waves strength reproducibility during pump-probe experiments', Journal of Applied Physics, vol. 120, no. 3, 035901. https://doi.org/10.1063/1.4958796

@article{40260850faf44b4e8bb80fbdb0f7dc97,

title = "Indirect monitoring shot-to-shot shock waves strength reproducibility during pump-probe experiments",

abstract = "We present an indirect method of estimating the strength of a shock wave, allowing on line monitoring of its reproducibility in each laser shot. This method is based on a shot-to-shot measurement of the X-ray emission from the ablated plasma by a high resolution, spatially resolved focusing spectrometer. An optical pump laser with energy of 1.0 J and pulse duration of ∼660 ps was used to irradiate solid targets or foils with various thicknesses containing Oxygen, Aluminum, Iron, and Tantalum. The high sensitivity and resolving power of the X-ray spectrometer allowed spectra to be obtained on each laser shot and to control fluctuations of the spectral intensity emitted by different plasmas with an accuracy of ∼2%, implying an accuracy in the derived electron plasma temperature of 5%-10% in pump-probe high energy density science experiments. At nano- and sub-nanosecond duration of laser pulse with relatively low laser intensities and ratio Z/A ∼ 0.5, the electron temperature follows Te ∼ Ilas2/3. Thus, measurements of the electron plasma temperature allow indirect estimation of the laser flux on the target and control its shot-to-shot fluctuation. Knowing the laser flux intensity and its fluctuation gives us the possibility of monitoring shot-to-shot reproducibility of shock wave strength generation with high accuracy.",

author = "Pikuz, {T. A.} and Faenov, {A. Ya} and N. Ozaki and Hartley, {N. J.} and B. Albertazzi and T. Matsuoka and K. Takahashi and H. Habara and Y. Tange and S. Matsuyama and K. Yamauchi and R. Ochante and K. Sueda and O. Sakata and T. Sekine and T. Sato and Y. Umeda and Y. Inubushi and T. Yabuuchi and T. Togashi and T. Katayama and M. Yabashi and M. Harmand and G. Morard and M. Koenig and V. Zhakhovsky and N. Inogamov and Safronova, {A. S.} and A. Stafford and Skobelev, {I. Yu} and Pikuz, {S. A.} and T. Okuchi and Y. Seto and Tanaka, {K. A.} and T. Ishikawa and R. Kodama",

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doi = "10.1063/1.4958796",

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T1 - Indirect monitoring shot-to-shot shock waves strength reproducibility during pump-probe experiments

AU - Pikuz, T. A.

AU - Faenov, A. Ya

AU - Ozaki, N.

AU - Hartley, N. J.

AU - Albertazzi, B.

AU - Matsuoka, T.

AU - Takahashi, K.

AU - Habara, H.

AU - Tange, Y.

AU - Matsuyama, S.

AU - Yamauchi, K.

AU - Ochante, R.

AU - Sueda, K.

AU - Sakata, O.

AU - Sekine, T.

AU - Sato, T.

AU - Umeda, Y.

AU - Inubushi, Y.

AU - Yabuuchi, T.

AU - Togashi, T.

AU - Katayama, T.

AU - Yabashi, M.

AU - Harmand, M.

AU - Morard, G.

AU - Koenig, M.

AU - Zhakhovsky, V.

AU - Inogamov, N.

AU - Safronova, A. S.

AU - Stafford, A.

AU - Skobelev, I. Yu

AU - Pikuz, S. A.

AU - Okuchi, T.

AU - Seto, Y.

AU - Tanaka, K. A.

AU - Ishikawa, T.

AU - Kodama, R.

PY - 2016/7/21

Y1 - 2016/7/21

N2 - We present an indirect method of estimating the strength of a shock wave, allowing on line monitoring of its reproducibility in each laser shot. This method is based on a shot-to-shot measurement of the X-ray emission from the ablated plasma by a high resolution, spatially resolved focusing spectrometer. An optical pump laser with energy of 1.0 J and pulse duration of ∼660 ps was used to irradiate solid targets or foils with various thicknesses containing Oxygen, Aluminum, Iron, and Tantalum. The high sensitivity and resolving power of the X-ray spectrometer allowed spectra to be obtained on each laser shot and to control fluctuations of the spectral intensity emitted by different plasmas with an accuracy of ∼2%, implying an accuracy in the derived electron plasma temperature of 5%-10% in pump-probe high energy density science experiments. At nano- and sub-nanosecond duration of laser pulse with relatively low laser intensities and ratio Z/A ∼ 0.5, the electron temperature follows Te ∼ Ilas2/3. Thus, measurements of the electron plasma temperature allow indirect estimation of the laser flux on the target and control its shot-to-shot fluctuation. Knowing the laser flux intensity and its fluctuation gives us the possibility of monitoring shot-to-shot reproducibility of shock wave strength generation with high accuracy.

AB - We present an indirect method of estimating the strength of a shock wave, allowing on line monitoring of its reproducibility in each laser shot. This method is based on a shot-to-shot measurement of the X-ray emission from the ablated plasma by a high resolution, spatially resolved focusing spectrometer. An optical pump laser with energy of 1.0 J and pulse duration of ∼660 ps was used to irradiate solid targets or foils with various thicknesses containing Oxygen, Aluminum, Iron, and Tantalum. The high sensitivity and resolving power of the X-ray spectrometer allowed spectra to be obtained on each laser shot and to control fluctuations of the spectral intensity emitted by different plasmas with an accuracy of ∼2%, implying an accuracy in the derived electron plasma temperature of 5%-10% in pump-probe high energy density science experiments. At nano- and sub-nanosecond duration of laser pulse with relatively low laser intensities and ratio Z/A ∼ 0.5, the electron temperature follows Te ∼ Ilas2/3. Thus, measurements of the electron plasma temperature allow indirect estimation of the laser flux on the target and control its shot-to-shot fluctuation. Knowing the laser flux intensity and its fluctuation gives us the possibility of monitoring shot-to-shot reproducibility of shock wave strength generation with high accuracy.

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JO - Journal of Applied Physics

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SN - 0021-8979

IS - 3

M1 - 035901

ER -

Indirect monitoring shot-to-shot shock waves strength reproducibility during pump-probe experiments

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