Research Facilities (including shared analytical facilities and computational facilities) in the School of Earth, Energy & Environmental Sciences enable efficiencies of time, knowledge, and resources. They are school supported, funded, and staffed, and are shared by faculty, staff, and students across the university.
The Branner Earth Sciences Library, on the second floor of Mitchell Earth Sciences Building, contains four GIS workstations and many electronic data sets in addition to books, periodicals, and maps.
The School provides and manages a high speed local area computer network that connects to the campus SUNet backbone. You must register your computer or other device to use this network.
These laboratories house a broad range of shared equipment for the initial steps of preparing rock samples. Numerous SES research groups use these labs, before completing more specialized procedures in their own facilities. Equipment is available for rock sawing, polishing, coring, crushing, grinding, powdering, sieving, washing, drying, separating, concentrating, etc. (formerly Rock Preparation and Mineral Separation Labs)
The Environmental Measurement 1: Gas-Solution Analytical Center provides quantitative analysis and technical expertise to members of the Stanford community needing to conduct soil, gas, and water measurements.
The Stable Isotope Biogeochemistry Laboratory (SIBL) provides analytical facilities and technical expertise to members of the Stanford community who need to determine stable isotope ratios of a variety of organic and inorganic materials from both terrestrial and marine environments. The facility has the ability to measure C, N, O (including 17O), H, and S in plant and animal tissue, soils, minerals, and waters. Moreover, by the use of infrared lasers and micro-drill techniques it provides capabilities for high-spatial resolution isotopic measurements. The laboratory is also making investments in the development of Cavity Ring-Down Laser Spectroscopy for a variety of lab and field based innovations in stable isotopic analyses.
Fission track thermochronology is a geochronologic method that yields the time when rock rose through the 2 to 5 km depth window or ~80°-120°C (for the mineral apatite). This low-temperature thermochronometer allows us to collect data at the regional scale to study uplift, mountain building and erosion or on detailed scales to understand the slip history of faults in the brittle crust. The best studies utilizing low temperature thermochronology involve careful integration of field-based mapping, structural studies and balanced cross-sections with laboratory-collected thermochronology data. (U-Th)/He thermochronology is a more recently developed and highly complimentary method for dating exhumation from even shallower depths (~40-85°C) intervals. The (U-Th)/He laboratory resides in our Noble Gas Laboratory. The two methods paired together provide a powerful means of solving many tectonic questions about the P-T path of the upper 10 km of the crust.
The "Geo-Imaging, Research and Design" lab is maintained for use by Earth Sciences graduate students, staff, and faculty to do independent research. This computer lab has both Macs and PCs running applications like ArcGIS, ENVI, Matlab, Comsol, the Adobe Creative Suite, and Microsoft Office. Scanners, printers, and large format plotters are also available. Contact the GRID lab manager with any questions.
We comprehensively examine the evolution of the Earth's crust using highly integrated geochronologic approaches conducted in a wide spectrum of analytical facilities that are all housed within the School of Earth, Energy & Environmental Sciences. Our highly collaborative research provides fundamental data to many disciplines throughout the geosciences, including tectonics, geodynamics, petrology, geochemistry, geomorphology, sedimentology, stratigraphy, paleontology, and paleoclimatology.
GIS Packages and Geospatial Data
A Geographical Information Systems (GIS) lab is maintained in Branner Library, and is available for students and researchers. This includes GIS hardware, software and data sets as well as technical support and consultations.
Geology Corner room 114 is a general use drop-in computer cluster for the exclusive use of undergraduates who are majoring in an Earth Sciences department or program. There are four computers with a selection of software.
The School maintains a high capacity and high performance network file server, sesfs.stanford.edu, that provides generous free data storage for individual and research group use. Its purpose is to provide a central repository of protected shareable disk storage that can be accessed from any computer on the network.
This facility operates three analytical instruments with widespread applications in the Earth and Materials Sciences. The Electron Probe Microanalyzer (EPMA) provides highly accurate major and minor element compositional data on solid materials at the micron scale, and is housed in the Stanford Nanocharacterization Laboratory. A user-friendly powder X-ray diffractometer (XRD) and scanning electron microscope (SEM) are located in the Green building, and provide ready access to mineral identification and imaging.
This computer cluster is designed for instructional use. The classroom features 20 dual-boot PCs (Mac and Windows) and a video projection system. When not scheduled for a class the room is available for drop-in use by all faculty and students in Earth Sciences. Contact the A65 lab manager with any questions.
The Stanford Noble Gas Laboratory produces high-quality 40Ar/39Ar & (U-Th)/He data for geochronologic & thermochronologic applications in the Earth Sciences. The laboratory is open to all Stanford researchers to perform their own analyses under the supervision of laboratory personnel. Based upon time availability researchers from other institutions may also gain access to the laboratory. All potential users must submit a request form.
The School maintains and provides many other specialized computational facilities, including
The School's IT staff also provide technical support to individuals and research groups in the School.
The Shared Field Measurement Facility's primary aim is to provide support, education, and technical expertise to members of the Stanford community interested in or needing to conduct field-based research or teaching. The facility houses a range of geophysical, GPS, and surveying equipment, as well as field computer options for data logging or mapping.
The Spatial Analysis Center is a shared facility of the School of Earth, Energy & Environmental Sciences that supports research on environmental changes based on remote sensing and geographic information systems. It provides state-of-the-art equipment and expertise for Stanford researchers who conduct geospatial analyses. Ongoing research projects at SAC combine remote sensing data from optical sensors at high to coarse spatial resolutions with data from a variety of other datasources.
CEES integrates Earth science and computer science to build capacity in computational methods for the Earth and environmental sciences, and to enable new growth in areas where computational activities already exist. The three units of CEES—Research, HPTC, and Education—work together to fill the gap between applied mathematics and the Earth sciences. Combining a strong focus on scientific applications with state-of-the-art hardware and computational methods, CEES is pushing forward the frontiers of computational geoscience and engaging computer scientists and architects to design software and hardware better suited for Earth and environmental science problems.
The ICPMS/TIMS Facility, also known as the Plasma Lab, is a state-of-the-art facility for the analysis of isotopes and trace elements using mass spectrometry. The array of equipment in the laboratory includes a Nu AttoM high-resolution inductively coupled plasma mass spectrometer (ICP-MS), a Nu Plasma HR multi-collector ICP-MS, a Thermal Ionization Mass Spectrometer (TIMS) and a specially designed Picotrace metal-free low particulate clean laboratory. The facility is open to collaboration with members of the Stanford community.
The ICPMS/TIMS Facility within Stanford University's School of Earth, Energy & Environmental Sciences is a state-of-the-art facility for the analysis of isotopes and trace elements using mass spectrometry.
The research at the Stanford Rock Physics Laboratory focuses on experiments designed to understand the connections between geophysical properties measured at the surface of the Earth or within boreholes with the intrinsic properties of rocks – i.e., mineralogy, porosity, pore fluids, stress conditions, and the overall rock architecture such as laminations, fractures, and the intricate pore network.
The SHRIMP-RG (Sensitive High Resolution Ion Micro Probe-Reverse Geometry) laboratory is operated in a partnership between the Stanford University School of Earth, Energy & Environmental Sciences and the U.S. Geological Survey. The unique ion optic design of SHRIMP-RG permits simultaneous, high-spatial resolution measurement of U-Th-Pb ages and trace element compositions from nanogram-scale volumes to determine crystallization histories of crustal and surface materials.