Loerting T. and Liermann H.-P.

Wasser in der Erde und in kosmischen Eiswelten
Phys. Unserer Zeit 53, 116 (2022)

Schoelmerich M. O., Mendez A. S. J., Plueckthun C., Biedermann N., Husband R., Preston T. R., Wollenweber L., Klimm K., Tschentscher T., Redmer R., Liermann H.-P., and Appel K.

In situ x-ray diffraction study of dynamically compressed α-cristobalite
using a dynamic diamond anvil cell

Phys. Rev. B 105, 064109 (2022)

Zastrau U., Appel K., Baehtz C., Baehr O., Batchelor L., Berghäuser A., Banjafar M., Brambrink E., Cerantola V., Cowan T. E., Damker H., Dietrich S., Di Dio Cafiso S., Dreyer J., Engel H.-O., Feldmann T., Findeisen S., Foese M., Fulla-Marsa D. et al.

The High Energy Density Scientific Instrument at the European XFEL
J. Synchrotron Rad. 28, 1393-1416 (2021)

Tosi N. and Padovan S.

Mercury, Moon, Mars: Surface expressions of mantle convection and interior evolution of stagnant-lid bodies
In Mantle Convection and Surface Expressions, H. Marquardt, M. Ballmer, S. Cottar and J. Konter (eds.), AGU Monograph Series, Ch. 17, 455-489

Samuel E., Ballmer M., Padovan S., Tosi N., Rivoldini A., and Plesa A.-C.

The thermo‐chemical evolution of Mars with a strongly stratified mantle
J. Geophys. Res. Planets 126, 4 (2021)

Höning D., Baumeister P., Grenfell J.L., Tosi N., and M.J. Way

Early habitability and crustal decarbonation of a stagnant-lid Venus
J. Geophys. Res. Planets 126, e2021JE006895 (2021)

Nettelmann N.

Stardust in the deep interior of low-mass planets
Nat. Ast. 5, 744 (2021)

Aslandukov A., Aslandukova A., Laniel D., Koemets I., Fedotenko T., Yuan L., Steinle-Neumann G., Glazyrin K., Hanfland M., Dubrovinsky L., and Dubrovinskaia N.

High-pressure yttrium nitride, Y5N14, featuring three distinct types of nitrogen dimers
J. Phys. Chem. C 125, 18077-18084 (2021)

Langhammer D., Di Genova D., and Steinle-Neumann G.

Modeling the viscosity of anhydrous and hydrous volcanic melts
Geochem. Geophys. Geosyst. 22, e2021GC009918 (2021)

Trybel F., Meier T., Wang B, and Steinle-Neumann G.

Absence of proton tunneling during the hydrogen-bond symmetrization in δ-AlOOH
Phys. Rev. B 104, 104311 (2021)

Yuan L. and Steinle-Neumann G.

The helium elemental and isotopic compositions of the Earth’s core based on ab initio simulations
J. Geophys. Res. 126, e2021JB023106 (2021)

Chen Z., Na X., Curry C.B., Liang S., French M., Descamps A., DePonte D.P., Koralek J.D., Kim J.B., Lebovitz S., Nakatsutsumi M., Ofori-Okai B.K., Redmer R., Roedel C., Schörner M., Skruszewicz S., Sperling P., Toleikis S., Mo M.Z., and Glenzer S.H.

Observation of a highly conductive warm dense state of water with ultrafast pump–probe free-electron-laser measurements
Matter Radiat. at Extremes 6, 054401 (2021)

Husband R. J., McWilliams R. S., Pace E. J., Coleman A. L., Hwang H, Choi J., Kim T., Hwang G. C., Ball O. B., Chun S. H., Nam D., Kim S., Cynn H., Prakapenka V. B., Shim S.-H., Toleikis S., McMahon M. I., Lee Y., and Liermann H.-P.

X-ray free electron laser heating of water and gold at high static pressure
Comm. Mat. 2, 61 (2021)

Scheibe L., Nettelmann N., and Redmer R.

Thermal evolution of Uranus and Neptune II - Deep thermal boundary layer
Astron. Astrophys. 650, A200 (2021)

Liermann H. P., Konôpková Z., Appel K., Prescher C., Schropp A. et al.

Novel experimental setup for megahertz X-ray diffraction in a diamond anvil cell at the High Energy Density (HED) instrument of the European X-ray Free-Electron Laser (EuXFEL)
J. Synchrotron Rad. 28, 688-706 (2021)

Hwang H., Kim T., Cynn H., Vogt T., Husband R. J. et al.

X-Ray Free Electron Laser-Induced Synthesis of ε-Iron Nitride at High Pressures
J. Phys. Chem. Lett. 12, 3246-3252 (2021)

Méndez A. S. J., Trybel F., Husband R. J., Steinle-Neumann G., Liermann H.-P., and Marquardt H.

Bulk modulus of H2O across the ice VII–ice X transition measured by time-resolved x-ray diffraction in dynamic diamond anvil cell experiments
Phys. Rev. B 103, 064104 (2021)​​​​​​​

Adams D. J. J., Wang L., Steinle-Neumann G., Passerone D., and Churakov S. V.

Anharmonic Effects on the Dynamics of Solid Aluminium from Ab-Initio Simulations
J. Phys.: Condens, Matter 33, 175501 (2021)

Helled R., Nettelmann N., and Guillot T.

Uranus and Neptune: Origin, Evolution and Internal Structure
Sp. Sci. Rev. 216, 38 (2020)

Trybel F., Cosacchi M., Meier T., Axt V. M., and Steinle-Neumann G.

Proton dynamics in high-pressure ice-VII from density functional theory
Phys. Rev. B 102, 184310 (2020)​​​​​​​

Meier T., Trybel F., Criniti G., Laniel D., Khandarkhaeva S, Koemets E., Fedotenko T., Glazyrin K., Hanfland M., Bykov M., Steinle-Neumann G., Dubrovinskaia N., and Dubrovinsky L.

Proton mobility in metallic copper hydride from high-pressure nuclear magnetic resonance
Phys. Rev. B 102, 165109 (2020)​​​​​​​

Helled R., Mazzola G., and Redmer R.

Understanding dense hydrogen at planetary conditions
Nat. Rev. Phys. 2, 562 (2020)​​​​​​​

Csizmadia Sz.

The Transit and Light Curve Modeller
MNRAS 496, 4442 (2020)

Schoelmerich, Tschentscher, Bhat, Bolme, Cunningham, Farla, Galtier, Gleason, Harmand, Inubushi, Katagiri, Miyanishi, Nagler, Ozaki, Preston, Redmer, Smith, Tobase, Togashi, Tracy, Umeda, Wollenweber, Yabuuchi, Zastrau, Appel

Evidence of shock-compressed stishovite above 300GPa
Sci. Rep. 10, 10197 (2020)

Baumeister P., Padovan S., Tosi N., Montavon G., Nettelmann N., MacKenzie J., and Godolt M.

Machine-learning Inference of the Interior Structure of Low-mass Exoplanets
Astrophys. J. 889, 42 (2020)

Hellard H., Csizmadia S. , Padovan S., Sohl F., and Rauer H.

HST/STIS capability for Love number measurement of WASP-121b
Astrophys. J. 889, 66 (2020)

Scheibe L., Nettelmann N., and Redmer R.

Thermal Evolution of Uranus and Neptune I - Adiabatic models
Astron. Astrophys. 632, A70 (2019)

Preston T. R., Appel K., Brambrink E., Chen B., Fletcher L. B., Fortmann-Grote C., Glenzer S. H., Granados E., Göde S., Konopkova Z., Lee H. J., Marquardt H., McBride E. E., Nagler B., Nakatsutsumi M., Sperling P., Witte B. B. L., and Zastrau U.

Measurements of the momentum-dependence of plasmonic excitations in matter around 1 Mbar using an X-ray Free Electron Laser
Appl. Phys. Lett 114, 014101 (2019)

McBride E. E., Krygier A., Ehnes A., Galtier E., Harmand M., Konopkova Z., Lee H. J., Liermann H.-P., Nagler B., Pelka A., Rödel M., Schropp A., Smith R. F., Spindloe C., Swift D., Tavella F., Toleikis S., Tschentscher T., Wark J. S., and Higginbotham A.

Phase transition lowering in dynamically compressed silicon
Nat. Phys. 15, 89 (2019)

Tracy S., Smith R. F., Wicks J. K., Fratanduono D. E., Gleason A. E., Bolme C. A., Prakapenka V. B., Speziale S., Appel K., Lee H. J., MacKinnon A., Tavella F., Eggert J. H., and Duffy T. S.

In situ observation of a phase transition in silicon carbide under shock compression using pulsed X-ray diffraction
Phys. Rev. B. 99, 214106 (2019)

Sims M., Jaret S. J., Carl E. R., Rhymer R., Schrodt N., Mohrholz V., Smith J., Konopkova Z., Liermann H. P., Glotch T. D., and Ehm L.

Pressure-induced amorphization in plagioclase feldspars: A time-resolved powder diffraction study during rapid compression
Earth Planet. Sci. Lett. 507, 166 (2019)

Komabayashi T., Pesce G., Sinmyo R., Kawazoe T., Breton H., Shimoyama Y., Glazyrin K., Konopkova Z., and Mezouar M.

Phase relations in the system Fe-Ni-Si to 200 GPa and 3900 K and implications for Earth’s core
Earth Planet. Sci. Lett. 512, 83 (2019)

Csizmadia Sz., Hellard H., and Smith A.M.S.

An estimate of the k2 Love number of WASP-18Ab from its radial velocity measurements
Astron. Astrophys. 623, A45 (2019)

Hellard H., Csizmadia Sz., Padovan S., Rauer H., Cabrera J., Sohl F., Spohn T., and Breuer D.

Retrieval of the fluid Love number k2 in exoplanetary transit curves
Astrophys. J. 878, 119 (2019)​​

Cytter Y., Rabani R., Neuhauser D., Preising M., Redmer R., and Baer R.

Transition to metallization in warm dense helium-hydrogen mixtures using stochastic density functional theory within the Kubo-Greenwood formalism
Phys. Rev. B 100, 195101 (2019)​​​​​​​

Guarguaglini M., Hernandez J.-A., Okuchi T., Barroso P., Benuzzi-Mounaix A., Bethkenhagen M., Bolis R., Brambrink E., French M., Fujimoto Y., Kodama R., Koenig M., Lefevre F., Miyanishi K., Ozaki N., Redmer R., Sano T., Umeda Y., Vinci T., and Ravasio A.

Laser-driven shock compression of “synthetic planetary mixtures” of water, ethanol, and ammonia
Sci. Rep. 9, 10155 (2019)

French M., and Nettelmann N.

Viscosity and Prandtl Number of Warm Dense Water as in Ice Giant Planets
Astrophys. J. 881, 81 (2019)

Meier T., Trybel F., Khandarkhaeva S., Steinle-Neumann G., Chariton S., Fedotenko T., Petitgirard S., Hanfland M., Glazyrin K., Dubrovinskaia N., and Dubrovinsky L.

Pressure-Induced Hydrogen-Hydrogen Interaction in Metallic FeH Revealed by NMR
Phys. Rev. X 9, 031008 (2019)

Wagle F., Steinle-Neumann G.

Liquid iron equation of state to the terapascal regime from ab initio simulations
J. Geophys. Res. 124, 3350-3364 (2019)

Kupenko I., Aprilis G., Vasiukov D. M., McCammon C., Chariton S., Cerantola V., Kantor I., Chumakov A. I., Rüffer R., Dubrovinsky L., and Sanchez-Valle C.

Magnetism in cold subducting slabs at mantle transition zone depths
Nature 570, 102-106 (2019)

Witte B.B.L., Röpke G., Neumayer P., French M., Sperling P., Recoules V., Glenzer S.H., and Redmer R.

Comment on "Isochoric, isobaric, and ultrafast conductivities of aluminum, lithium, and carbon in the warm dense matter regime"
Phys. Rev. E 99, 047201 (2019)

French M.

Thermal conductivity of dissociating water—an ab initio study
New J. Phys. 21, 023007 (2019)​​​​​​​

Korell J.-A., French M., Steinle-Neumann G., and Redmer R.

Paramagnetic-to-Diamagnetic Transition in Dense Liquid Iron and Its Influence on Electronic Transport Properties
Phys. Rev. Lett. 122, 086601 (2019)

Plesa A.-C., Padovan S., Tosi N., Breuer D., Grott M., Wieczorek M. A., Spohn T., Smrekar S. E., and Banerdt W. B.

The thermal state and interior structure of Mars
Geophys. Res. Lett. (2018)

Marquardt H., Buchen J., Mendez A. S. J., Kurnosov A., Wendt M., Rothkirch A., Pennicard D., and Liermann H.-P.

Elastic Softening of (Mg0.8Fe0.2)O Ferropericlase Across the Iron Spin Crossover Measured at Seismic Frequencies
Geophys. Res. Lett. 45(14), 6862 (2018)

Kraus, Hartley, Frydrych, Schuster, Rohatsch, Rödel, Cowan, Brown, Cunningham, van Driel, Fletcher, Galtier, Gamboa, Laso Garcia, Gericke, Granados, Heimann, Lee, MacDonald, MacKinnon, McBride, Nam, Neumayer, Pak, Pelka, Prencipe, Ravasio, Redmer et al.

High-pressure chemistry of hydrocarbons relevant to planetary interiors and inertial confinement fusion
Phys. Plasmas 25, 056313 (2018)

Meza-Galvez J., Gomez-Perez N., Marshall A., Coleman A. L., Appel K., Liermann H.-P., Konopkova Z., McMahon M. I., and McWilliams R. S.

Thermomechanical response of thickly tamped targets and diamond anvil cells under pulsed hard X-ray irradiation
arXiv:1806.10893 (2018)

Padovan S., Spohn T., Baumeister P., Tosi N., Breuer D., Csizmadia Sz., Hellard H., and Sohl F.

Matrix-propagator approach to compute fluid Love numbers and applicability to extrasolar planets
Astron. Astrophys. (2018)

McBride, White, Descamps, Fletcher, Appel, Condamine, Curry, Dallari, Funk, Galtier, Gauthier, Goede, Kim, Lee, Ofori-Okai, Oliver, Rigby, Schoenwaelder, Sun, Tschentscher, Witte, Zastrau, Gregorie, Nagler, Hastings, Glenzer, and Monaco

Setup for meV-resolution inelastic X-ray scattering measurements and X-ray diffraction at the Matter in Extreme Conditions endstation at the Linac Coherent Light Source
Rev. Sci. Instr. 89, 10F104 (2018)

Steinbrügge G., Padovan S., Hussmann H., Steinke T., Stark A., and Oberst J.

Viscoelastic tides of Mercury and the determination of its inner core size
J. Geophys. Res. Planets, 123 (2018)

Becker A., Bethkenhagen M., Kellermann C., Wicht J., and Redmer R.

Material Properties for the Interiors of Massive Giant Planets and Brown Dwarfs
Astron. J, 156, 4 (2018)

Mo M. Z., Chen Z., Li R. K., Dunning M., Witte B. B. L., Baldwin J. K., Fletcher L. B., Kim J. B., Ng A., Redmer R., Reid A. H., Shekhar P., Shen X. Z., Shen M., Sokolowski-Tinten K., Tsui Y. Y., Wang Y. Q., Zheng Q., Wang X. J., and Glenzer S. H.

Heterogeneous to homogeneous melting transition visualized with ultrafast electron diffraction
Science 360, 1451-1455 (2018)

Hakim K., Rivoldini A., Van Hoolst T., Cottenier S., Jaeken J., Chust T., and Steinle-Neumann G.

A new ab initio equation of state of hcp-Fe and its implication on the interior structure and mass-radius relations of rocky super-Earths
Icarus 313, 61 (2018)

Witte B.B.L., Sperling P., French M., Recoules V., Glenzer S.H., and Redmer R.

Observation of non-linear plasmon damping in dense plasmas
Phys. Plasmas 25, 056901 (2018)

Wagle F., Steinle-Neumann G., and de Koker N.

Saturation and negative temperature coefficient of electrical resistivity in liquid iron-sulfur alloys at high densities from first-principles calculations
Phys. Rev. B 97, 094307 (2018)

Chust T. C., Steinle-Neumann G., Dolejš D., Schuberth B. S. A., and Bunge H.-P.

MMA-EoS: A Computational Framework for Mineralogical Thermodynamics
J. Geophys. Res. Solid Earth 122, 12 (2017)

Bethkenhagen M., Meyer E.R., Hamel S., Nettelmann N., French M., Scheibe L., Ticknor C., Collins L.A., Kress J.D., Fortney J.J., and Redmer R.

Planetary Ices and the Linear Mixing Approximation
Astrophys. J. 848, 67 (2017)

French M. and Redmer R.

Electronic transport in partially ionized water plasmas
Phys. Plasmas 24, 092306 (2017)