GSECARS is a national user facility for frontier research in the earth sciences using synchrotron radiation at the Advanced Photon Source, Argonne National Laboratory.
GSECARS provides earth scientists with access to the high-brilliance hard x-rays from this third-generation synchrotron light source. All principal synchrotron-based analytical techniques in demand by earth scientists are being brought to bear on earth science problems:
High-pressure/high-temperature crystallography and spectroscopy using the diamond anvil cell
High-pressure/high-temperature crystallography and imaging using the large-volume press
Powder, single crystal and interface diffraction
Inelastic x-ray scattering
X-ray absorption fine structure spectroscopy
X-ray fluorescence microprobe analysis
Microtomography
Quick Links
► Apply for Beamtime.
► APS User Portal
► Register as a General User.
► Register as a Visitor to APS.
► Experiment Safety Approval Form (ESAF).
► End of Experiment Form (EEF).
► APS Storage Ring Schedule.
► GSECARS Beamtime Schedule.
► Argonne Guest House (AGH).
► Safety Training - Remote Access.
► APS Publication Database.
► High Pressure Tools
RECENT PUBLICATIONS
► M. Cil, J. Schabelski, A. Packman, and G. Buscarnera, “A Miniaturized Testing Apparatus to Study the Chemo-Mechanics of Porous Media,” Geotechnical Testing Journal 43 https://doi.org/10.1520/GTJ20190031.
► Terzano, R., Denecke, M., Falkenberg, G., et al. (2019). Recent advances in analysis of trace elements in environmental samples by X-ray based techniques (IUPAC Technical Report). Pure and Applied Chemistry, 91(6), pp. 1029-1063. DOI :10.1515/pac-2018-0605
► Shearer,C.K., Bell, A.S., Herd, C.D.K., Burger, P.V., Provencio, P., Sharp, Z.D., Papike, J.J., The Northwest Africa 8159 (NWA 8159) Martian Meteorite Part 2. Spinel-orthopyroxene intergrowths. A record of fO2 and crust-basalt interactions, Geochimica et Cosmochimica Acta, Volume 258, 2019, Pages 242_257, https://doi.org/10.1016/j.gca.2019.05.034.
► Qin,F., Wu, X., Qin, S., Zhang, D., Prakapenka, V.B., Jacobsen, S.D., Pressure-induced dehydration of dioptase: A single-crystal X-ray diffraction and Raman spectroscopy study, (2019) Comptes Rendus Geoscience, Volume 351, Issues 2–3, 121-128, https://doi.org/10.1016/j.crte.2018.07.007.
► Zhang, D., Hu, Y., Xu, J., et al. (2019). High-pressure behavior of liebenbergite: The most incompressible olivine-structured silicate. American Mineralogist, 104(4), pp. 580-587., from doi:10.2138/am-2019-6680
► E-Wen Huang, Chih-Ming Lin, Jenh-Yih Juang, Yao-Jen Chang, Yuan-Wei Chang, Chan-Sheng Wu, Che-Wei Tsai, An-Chou Yehd, Sean R. Shieh Ching-Pao Wang, Yu-Chun Chuang, Yen-Fa Liao, Dongzhou Zhang, Tony Huang, Tu-Ngoc Lama, Yi-Hung Chen. (2019). Deviatoric Deformation Kinetics in High Entropy Alloy under Hydrostatic Compression, J Alloys and Compounds 792 : 116.https://doi.org/10.1016/j.jallcom.2019.03.349
► Xu, J., Zhang, D., Fan, D., Wu, X., Shi, F., Zhou, W. (2019) Compressional behavior of natural eclogitic zoisite by synchrotron X-ray single-crystal diffraction to 34 GPa. Phys Chem Minerals. 46 (3):333.https://doi.org/10.1007/s00269-018-1006-6
► Yong, T., Dera, P., Zhang, D., (2019). Single-crystal X-ray diffraction of grunerite up to 25.6 GPa: a new high-pressure clinoamphibole polymorph. Phys Chem Minerals. 46 (3): 215. https://doi.org/10.1007/s00269-018-0999-1
► Hao, M., Zhang, J. S., Pierotti, C. E., Ren, Z., & Zhang, D. ( 2019). High‐pressure single‐crystal elasticity and thermal equation of state of omphacite and their implications for the seismic properties of eclogite in the Earth’s interior. Journal of Geophysical Research: Solid Earth, 124, 2368– 2377. https://doi.org/10.1029/2018JB016964
► Gualda, G.A.R., Gravely, D.M., Hollman, B., Pamukcu, A.S., Begue, F., Ghiorso, M.S., Deering, C.D., (2018) Climbing the crustal ladder : Magma storage-depth evolution dueing a volvcanic flare-up. Sci. Adv. 4, eaap 7567 DOI : 10.1126/sciadv.aap7567
► Desmau, M., Gelabert, A., Levard, C., Ona-Nguema, G., Vidal, V., Stubbs, J.E., Eng, P.J., Benedetti, M.F. (2018) Dynamics of silver nanoparticles at the solution/biofilm/mineral interface. Environ. Sci.: Nano. 5: 2394-2405. https://doi.org/10.1039/C8EN00331A
► X. Lai, F. Zhu, J. Liu, D. Zhang, Y. Hu, G. J. Finkelstein, P. Dera, B. Chen; The high-pressure anisotropic thermoelastic properties of a potential inner core carbon-bearing phase, Fe7C3, by single-crystal X-ray diffraction. American Mineralogist ; 103 (10): 1568–1574. doi: https://doi.org/10.2138/am-2018-6527
GSECARS Benchtop SEM
GSECARS now has a JEOL Neoscope 6000PLUS scanning electron microscope available to GSECARS and APS users in support of beamline experiments. Click here for more info.
GSECARS Laser Lab
Users interested in using the Raman System or Micromanipulator,
Click here for more info.
Science Highlights
Ultrahigh-pressure isostructural electronic transitions in hydrogen
High-pressure transitions are thought to modify hydrogen molecules to a molecular metallic solid and finally to an atomic metal, which is predicted to have exotic physical properties and the topology of a two-component (electron and proton) superconducting superfluid condensate. Therefore, understanding such transitions remains an important objective in condensed matter physics. However, measurements of the crystal structure of solid hydrogen, which provides crucial information about the metallization of hydrogen under compression, are lacking for most high-pressure phases, owing to the considerable technical challenges involved in X-ray and neutron diffraction measurements under extreme conditions. Here we present a single-crystal X-ray diffraction study of solid hydrogen at pressures of up to 254 gigapascals that reveals the crystallographic nature of the transitions from phase I to phases III and IV. Click
Pressure-Induced Superconductivity and Flattened Se6 Rings in the Wide Band Gap Semiconductor Cu2I2Se6
The two major classes of unconventional superconductors, cuprates and Fe-based superconductors, have magnetic parent compounds, are layered, and generally feature square-lattice symmetry. We report the discovery of pressure-induced superconductivity in a nonmagnetic and wide band gap 1.95 eV semiconductor, Cu2I2Se6, with a unique anisotropic structure composed of two types of distinct molecules: Se6 rings and Cu2I2 dimers, which are linked in a three-dimensional framework. Click
An upgraded and integrated large-volume high-pressure facility at the GeoSoilEnviroCARS bending magnet beamline of the Advanced Photon Source
The multi-anvil, large-volume high-pressure facility at the bending magnet beamline (13-BM-D) runs a unique setup permitting an unusually wide range of high-pressure and high-temperature experiments combined with X-rays and other in-situ probing techniques. Here we provide a detailed description of the current large-volume press (LVP) setup at 13-BM-D, including hardware, software, and all experimental capabilities. Click
Phase transitions beyond post-perovskite in NaMgF3 to 160 GPa
The high-pressure behavior of NaMgF3 is of interest due to its role as a low-pressure analog for phase transitions in the MgSiO3 system. In this work, we have used the diamond anvil cell and synchrotron X-ray diffraction techniques to study structural transitions in NaMgF3 to 1.6 Mbars. Our work has identified a sequence of high-pressure phases beyond post-perovskite in this ABX3 system. Click
Depositional and diagenetic constraints on the abundance and spatial variability of carbonate-associated sulfate
Here, we have combined X-ray Absorption Near Edge Structure (XANES) spectroscopy and μ-X-ray Fluorescence (μ-XRF) imaging to map the speciation and abundance of sulfur in carbonate petrographic thin sections in Upper Ordovician carbonates from Anticosti Island, Canada and early Silurian carbonates from Gotland, Sweden, across multiple depositional facies. The detection and characterization of both inorganic sulfur and organic sulfur compounds provides a platform to understand early processes of biomineralization. This approach will broaden our understanding of the source of inorganically bound sulfate in ancient carbonates, as well as the effect of depositional setting and diagenesis on CAS incorporation, (re)mobilization, and ultimate abundance in sedimentary carbonates. Click
Solubility and speciation of iron in hydrothermal fluids
Here, we conducted hydrothermal diamond-anvil cell experiments using synchrotron-radiation micro-XRF and XANES analyses as well as Raman spectroscopy, in situ at hydrothermal temperatures and pressures, to characterize the solubility and speciation of iron in fluids buffered by a variety of mineral assemblages. Click
Immiscibility between two rutile phases in the GeO2–TiO2 system and application as a temperature sensor in high-pressure experiments
The system GeO2–TiO2 was studied experimentally at high pressure and temperature to measure the miscibility of the two components and to test its applicability as a temperature sensor in high-pressure experiments. Click
Happenings
GSECARS hosted high school students from Glenbard East High School. The students ran an experiment at 13 IDE,
“Manganese hyperaccumulation in Brassica juncea when co-cropped with Lupinus perennis”. They will present their results at the APS User Meeting Poster Session in April.
GSECARS was pleased to host a tour from The University of Chicago Principal Gifts and Leadership Engagement groups.
GSECARS welcomes Univeristy of Chicago, Department of Physical Sciences, Dean Angela Olinto. She toured Sector 13 to learn about synchrotron research in the earth and planetary sciences conducted by GSECARS.
GSECARS participated in the APS Upgrade video. This short video features members of the APS scientific community speaking about the exciting scientific opportunities the upcoming APS Upgrade will generate.
GSECARS was pleased to host students from the First Look @ Argonne Program, November 22, 2019. . 
GSECARS welcomed University of Chicago second year STEM undergraduates on a tour of the CARS facilities at APS.
Upcoming Events
Questions & Answers
General User Questions
Nancy Lazarz
lazarz@cars.uchicago.edu
Diamond Anvil Cell (DAC)
Vitali Prakapenka
prakapenka@cars.uchicago.edu
Multi-anvil Press
Yanbin Wang
wang@cars.uchicago.edu
Tomography
Mark Rivers
rivers@cars.uchicago.edu
Single Crystal DAC
Dongzhou Zang
dzzhang@cars.uchicago.edu
XAFS
Matt Newville
newville@cars.uchicago.edu
Tony Lanzirotti
lanzirotti@uchicago.edu
Microprobe
Steve Sutton
sutton@cars.uchicago.edu
GSECARS SEM
Tony Lanzirotti
lanzirotti@uchicago.edu
Powder, single crystal and interface diffraction
Peter Eng
eng@cars.uchicago.edu
Joanne Stubbs
stubbs@cars.uchicago.edu
Gas Loading System
Sergey Tkachev
tkachev@cars.uchicago.edu
GSECARS Raman Lab
Vitali Prakapenka
prakapenka@cars.uchicago.edu
GSECARS Chemistry Lab
Joanne Stubbs
stubbs@cars.uchicago.edu
GSECARS LVP Sample Prep Lab
Yanbin Wang
wang@cars.uchicago.edu
Tony Yu
tyu@cars.uchicago.edu