000001663 001__ 1663
000001663 005__ 20190130104945.0
000001663 02470 $$a10.1063/1.5017908$$2doi
000001663 037__ $$aARTICLE-2018-049
000001663 041__ $$aeng
000001663 245__ $$aHigh-pressure chemistry of hydrocarbons relevant to planetary interiors and inertial confinement fusion
000001663 260__ $$bAIP Publishing$$c2018$$hUSA
000001663 269__ $$a2018
000001663 336__ $$aArticles
000001663 520__ $$aDiamond formation in polystyrene $(C_{8}H_{8})_{n}$ which is laser-compressed and heated to conditions around 150 GPa and 5000 K, has recently been demonstrated in the laboratory [Kraus et al., Nat. Astron. 1, 606–611 (2017)]. Here, we show an extended analysis and comparison to first-principles simulations of the acquired data and their implications for planetary physics and inertial confinement fusion. Moreover, we discuss the advanced diagnostic capabilities of adding high-quality small angle X-ray scattering and spectrally resolved X-ray scattering to the platform, which shows great prospects of precisely studying the kinetics of chemical reactions in dense plasma environments at pressures exceeding 100 GPa.
000001663 546__ $$aEnglish
000001663 6531_ $$aX-ray scattering
000001663 6531_ $$aPolymers
000001663 6531_ $$aPlasma confinement
000001663 6531_ $$aX-ray diffraction
000001663 6531_ $$aPlanetary interiors
000001663 6531_ $$aOrganic compounds
000001663 6531_ $$aDiamond
000001663 6531_ $$aChemical reactions
000001663 655__ $$aMatter under extreme conditions, warm dense matter, and plasmas
000001663 655__ $$aHard condensed matter, structure, and dynamics
000001663 690__ $$aExternal experiment
000001663 690__ $$aTheory and simulation
000001663 7001_ $$aKraus, D.
000001663 7001_ $$aHartley, N. J.
000001663 7001_ $$aFrydrych, S.
000001663 7001_ $$aSchuster, A. K.
000001663 7001_ $$aRohatsch, K.
000001663 7001_ $$aRödel, M.
000001663 7001_ $$aCowan, T. E.
000001663 7001_ $$aBrown, S.
000001663 7001_ $$aCunningham, E.
000001663 7001_ $$avan Driel, T.
000001663 7001_ $$aFletcher, L. B.
000001663 7001_ $$aGaltier, E.
000001663 7001_ $$aGamboa, E. J.
000001663 7001_ $$aLaso Garcia, A.
000001663 7001_ $$aGericke, D. O.
000001663 7001_ $$aGranados, E.
000001663 7001_ $$aHeimann, P. A.
000001663 7001_ $$aLee, H. J.
000001663 7001_ $$aMacDonald, M. J.
000001663 7001_ $$aMacKinnon, A. J.
000001663 7001_ $$01290$$aMcBride, E. E.
000001663 7001_ $$aNam, I.
000001663 7001_ $$aNeumayer, P.
000001663 7001_ $$aPak, A.
000001663 7001_ $$aPelka, A.
000001663 7001_ $$aPrencipe, I.
000001663 7001_ $$aRavasio, A.
000001663 7001_ $$aRedmer, R.
000001663 7001_ $$aSaunders, A. M.
000001663 7001_ $$01408$$aSchölmerich, M.
000001663 7001_ $$aSchörner, M.
000001663 7001_ $$aSun, P.
000001663 7001_ $$aTurner, S. J.
000001663 7001_ $$aZettl, A.
000001663 7001_ $$aFalcone, R. W.
000001663 7001_ $$aGlenzer, S. H.
000001663 7001_ $$aDöppner, T.
000001663 7001_ $$aVorberger, J.
000001663 773__ $$q056313$$pPhys. Plasmas$$k25$$j25$$tPhysics of Plasmas
000001663 790__ $$aEuXFEL staff
000001663 790__ $$aOther
000001663 85641 $$uhttps://aip.scitation.org/doi/full/10.1063/1.5017908
000001663 8560_ $$flaura.outterside@xfel.eu
000001663 8564_ $$uhttps://xfel.tind.io/record/1663/files/High-pressure%20chemistry%20of%20hydrocarbons%20relevant%20to%20planetary%20interiors%20and%20inertial%20confinement%20fusion.pdf$$s3943181
000001663 900__ $$aInstrument HED
000001663 980__ $$aARTICLE