Litcius/Paper detail

X-ray Free Electron Laser-Induced Synthesis of ε-Iron Nitride at High Pressures

Huijeong Hwang, Taehyun Kim, Hyunchae Cynn, Thomas Vogt, Rachel J. Husband, Karen Appel, Carsten Baehtz, Orianna B. Ball, M. Baron, R. Briggs, Maxim Bykov, Elena Bykova, Valerio Cerantola, Julien Chantel, A. L. Coleman, Dana Dattlebaum, Leora E. Dresselhaus‐Marais, J. H. Eggert, Lars Ehm, W.J. Evans, G. Fiquet, Mungo Frost, Konstantin Glazyrin, Alexander F. Goncharov, Zsolt Jenei, Jaeyong Kim, Zuzana Konôpková, Jona Mainberger, Mikako Makita, Hauke Marquardt, E. E. McBride, J. McHardy, Sébastien Merkel, G. Morard, Earl F. O’Bannon, Christoph Otzen, Edward J. Pace, A. Pełka, Charles Pépin, J. S. Pigott, Vitali B. Prakapenka, Clemens Prescher, R. Redmer, S. Speziale, Georg Spiekermann, C. Strohm, Blake T. Sturtevant, Nenad Velisavljevic, Max Wilke, Choong-Shik Yoo, U. Zastrau, Hanns‐Peter Liermann, M. I. McMahon, R. S. McWilliams, Yongjae Lee

2021The Journal of Physical Chemistry Letters20 citationsDOIOpen Access PDF

Abstract

, as deduced from its established equation of state (EOS). We thus demonstrate that the activation energy provided by intense X-ray exposures in an XFEL can be coupled with the source time structure to enable exploration of the time-dependence of reactions under high-pressure conditions.

Topics & Concepts

Free-electron laserDiamond anvil cellUltrashort pulseLaserX-rayIrradiationCathode rayMaterials scienceElectronNitrideDiamondAtomic physicsHigh pressureAnalytical Chemistry (journal)Pulse (music)ChemistryOpticsPhysicsThermodynamicsNanotechnologyMetallurgyDetectorQuantum mechanicsNuclear physicsChromatographyLayer (electronics)Diamond and Carbon-based Materials ResearchAdvanced Materials Characterization TechniquesMetal and Thin Film Mechanics
X-ray Free Electron Laser-Induced Synthesis of ε-Iron Nitride at High Pressures | Litcius