Observations of strong ion-ion correlations in dense plasmas

T. Ma; L. Fletcher; A. Pak; D. A. Chapman; R. W. Falcone; C. Fortmann; E. Galtier; D. O. Gericke; G. Gregori; J. Hastings; O. L. Landen; S. Le Pape; H. J. Lee; B. Nagler; P. Neumayer; D. Turnbull; J. Vorberger; T. G. White; K. Wünsch; U. Zastrau; S. H. Glenzer; T. Döppner

doi:10.1063/1.4872161

Observations of strong ion-ion correlations in dense plasmas

T. Ma
, L. Fletcher
, A. Pak
, D. A. Chapman
, R. W. Falcone
, C. Fortmann
, E. Galtier
, D. O. Gericke
, G. Gregori
, J. Hastings
, O. L. Landen
, S. Le Pape
, H. J. Lee
, B. Nagler
, P. Neumayer
, D. Turnbull
, J. Vorberger
, T. G. White
, K. Wünsch
, U. Zastrau

S. H. Glenzer, T. Döppner

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

Abstract

Using simultaneous spectrally, angularly, and temporally resolved x-ray scattering, we measure the pronounced ion-ion correlation peak in a strongly coupled plasma. Laser-driven shock-compressed aluminum at ∼3× solid density is probed with high-energy photons at 17.9keV created by molybdenum He-α emission in a laser-driven plasma source. The measured elastic scattering feature shows a well-pronounced correlation peak at a wave vector of k=4Å^-1. The magnitude of this correlation peak cannot be described by standard plasma theories employing a linear screened Coulomb potential. Advanced models, including a strong short-range repulsion due to the inner structure of the aluminum ions are however in good agreement with the scattering data. These studies have demonstrated a new highly accurate diagnostic technique to directly measure the state of compression and the ion-ion correlations. We have since applied this new method in single-shot wave-number resolved S(k) measurements to characterize the physical properties of dense plasmas.

Original language	English
Article number	056302
Journal	Physics of Plasmas
Volume	21
Issue number	5
DOIs	https://doi.org/10.1063/1.4872161
Publication status	Published - 1 Jan 2014
Externally published	Yes

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10.1063/1.4872161

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Ma, T., Fletcher, L., Pak, A., Chapman, D. A., Falcone, R. W., Fortmann, C., Galtier, E., Gericke, D. O., Gregori, G., Hastings, J., Landen, O. L., Le Pape, S., Lee, H. J., Nagler, B., Neumayer, P., Turnbull, D., Vorberger, J., White, T. G., Wünsch, K., ... Döppner, T. (2014). Observations of strong ion-ion correlations in dense plasmas. Physics of Plasmas, 21(5), Article 056302. https://doi.org/10.1063/1.4872161

@article{6fb23b0193e5448db030654867774421,

title = "Observations of strong ion-ion correlations in dense plasmas",

abstract = "Using simultaneous spectrally, angularly, and temporally resolved x-ray scattering, we measure the pronounced ion-ion correlation peak in a strongly coupled plasma. Laser-driven shock-compressed aluminum at ∼3× solid density is probed with high-energy photons at 17.9keV created by molybdenum He-α emission in a laser-driven plasma source. The measured elastic scattering feature shows a well-pronounced correlation peak at a wave vector of k=4{\AA}-1. The magnitude of this correlation peak cannot be described by standard plasma theories employing a linear screened Coulomb potential. Advanced models, including a strong short-range repulsion due to the inner structure of the aluminum ions are however in good agreement with the scattering data. These studies have demonstrated a new highly accurate diagnostic technique to directly measure the state of compression and the ion-ion correlations. We have since applied this new method in single-shot wave-number resolved S(k) measurements to characterize the physical properties of dense plasmas.",

author = "T. Ma and L. Fletcher and A. Pak and Chapman, \{D. A.\} and Falcone, \{R. W.\} and C. Fortmann and E. Galtier and Gericke, \{D. O.\} and G. Gregori and J. Hastings and Landen, \{O. L.\} and \{Le Pape\}, S. and Lee, \{H. J.\} and B. Nagler and P. Neumayer and D. Turnbull and J. Vorberger and White, \{T. G.\} and K. W{\"u}nsch and U. Zastrau and Glenzer, \{S. H.\} and T. D{\"o}ppner",

year = "2014",

month = jan,

day = "1",

doi = "10.1063/1.4872161",

language = "English",

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Ma, T, Fletcher, L, Pak, A, Chapman, DA, Falcone, RW, Fortmann, C, Galtier, E, Gericke, DO, Gregori, G, Hastings, J, Landen, OL, Le Pape, S, Lee, HJ, Nagler, B, Neumayer, P, Turnbull, D, Vorberger, J, White, TG, Wünsch, K, Zastrau, U, Glenzer, SH & Döppner, T 2014, 'Observations of strong ion-ion correlations in dense plasmas', Physics of Plasmas, vol. 21, no. 5, 056302. https://doi.org/10.1063/1.4872161

TY - JOUR

T1 - Observations of strong ion-ion correlations in dense plasmas

AU - Ma, T.

AU - Fletcher, L.

AU - Pak, A.

AU - Chapman, D. A.

AU - Falcone, R. W.

AU - Fortmann, C.

AU - Galtier, E.

AU - Gericke, D. O.

AU - Gregori, G.

AU - Hastings, J.

AU - Landen, O. L.

AU - Le Pape, S.

AU - Lee, H. J.

AU - Nagler, B.

AU - Neumayer, P.

AU - Turnbull, D.

AU - Vorberger, J.

AU - White, T. G.

AU - Wünsch, K.

AU - Zastrau, U.

AU - Glenzer, S. H.

AU - Döppner, T.

PY - 2014/1/1

Y1 - 2014/1/1

N2 - Using simultaneous spectrally, angularly, and temporally resolved x-ray scattering, we measure the pronounced ion-ion correlation peak in a strongly coupled plasma. Laser-driven shock-compressed aluminum at ∼3× solid density is probed with high-energy photons at 17.9keV created by molybdenum He-α emission in a laser-driven plasma source. The measured elastic scattering feature shows a well-pronounced correlation peak at a wave vector of k=4Å-1. The magnitude of this correlation peak cannot be described by standard plasma theories employing a linear screened Coulomb potential. Advanced models, including a strong short-range repulsion due to the inner structure of the aluminum ions are however in good agreement with the scattering data. These studies have demonstrated a new highly accurate diagnostic technique to directly measure the state of compression and the ion-ion correlations. We have since applied this new method in single-shot wave-number resolved S(k) measurements to characterize the physical properties of dense plasmas.

AB - Using simultaneous spectrally, angularly, and temporally resolved x-ray scattering, we measure the pronounced ion-ion correlation peak in a strongly coupled plasma. Laser-driven shock-compressed aluminum at ∼3× solid density is probed with high-energy photons at 17.9keV created by molybdenum He-α emission in a laser-driven plasma source. The measured elastic scattering feature shows a well-pronounced correlation peak at a wave vector of k=4Å-1. The magnitude of this correlation peak cannot be described by standard plasma theories employing a linear screened Coulomb potential. Advanced models, including a strong short-range repulsion due to the inner structure of the aluminum ions are however in good agreement with the scattering data. These studies have demonstrated a new highly accurate diagnostic technique to directly measure the state of compression and the ion-ion correlations. We have since applied this new method in single-shot wave-number resolved S(k) measurements to characterize the physical properties of dense plasmas.

U2 - 10.1063/1.4872161

DO - 10.1063/1.4872161

M3 - Article

AN - SCOPUS:84899553712

SN - 1070-664X

VL - 21

JO - Physics of Plasmas

JF - Physics of Plasmas

IS - 5

M1 - 056302

ER -

Observations of strong ion-ion correlations in dense plasmas

Abstract

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