Research Inquiries

For inquiries related to SD Mines Research, contact:

Research Affairs

S.D. School of Mines & Technology
501 E. St. Joseph Street
Suite 102, O'Harra Building
Rapid City, SD  57701

(605) 394-2493

Research@Mines

Research@Mines

Research at Mines happens every day of the year, involves faculty and students at every academic level, and frequently includes collaboration across the state, the nation and the globe.
Lasers Light the Way to New Technologies

At Deep Talks: Nobel Day, Steve Smith, Ph.D., professor and director of Nanoscience and Nanoengineering at the SD Mines will discuss the topics relating to this year's Nobel Prize in Physics.

Remote Monitoring Stations Established at SD Mines in Build Up to DUNE

Researchers in the SD Mines Department of Physics are setting up new remote monitoring stations that allow them to take part in the international experiments MicroBooNE and NOvA. 

Termite Mounds Hide Secrets to Sustainable Buildings of the Future

South Dakota School of Mines & Technology has been awarded $475,000 from the National Science Foundation to study how termites construct mounds with the idea that humans might one day adapt the energy-efficient homebuilding techniques of the insects.

SD Mines Researchers Explore Hydraulic Fracturing to Expand Geothermal Energy

SD Mines researchers believe fracking can also be used at depth in hard rocks that contain no oil or gas to improve geothermal energy production. The process could enhance the use of the earth’s own heat as a source of clean energy.  Hydraulic fracturing research at SURF uses no chemicals, so unlike some fossil fuel fracking operations, the fracking fluid used in these studies is water only. 

Mines Undergraduate Research at Sanford Lab

From physics experiments scouring the universe for rare event signatures to chemistry projects growing the world’s purest copper, experiments at Sanford Lab provide a unique learning environment. Here, undergraduate students work with experts from around the world, gaining valuable real-world experience. SD Mines undergraduates have opportunities that allow them to take part in world-class research. 

When oil and water mix Understanding the environmental impacts of shale development

ERI Director Publishes "When Oil and Water Mix: Understanding the Environmental Impacts of Fracking" in GSA Today 

Powerful Bugs: Harnessing the Electric Eels of the Microbial World

SD Mines researchers are studying ways to harness electricity generated by a unique set of microbes. 

SD Mines Exchange with Jaypee University of Information Technology Exemplifies Strength in Diversity

Eight students from Jaypee University of Information Technology spent the past six months at South Dakota School of Mines & Technology contributing to the NSF funded BuG ReMeDEE research project.  

Lasers Light the Way to New Technologies

Steve Smith, Ph.D., professor and director of Nanoscience and Nanoengineering at the SD Mines, works with student Laura Brunmaier.

This year, the Nobel Prize in Physics was awarded to three individuals for “groundbreaking inventions in the field of laser physics”: Arthur Ashkin with Bell Laboratories in the United States; Gerard Mourou of the École Polytechnique, Palaiseau, France, and the University of Michigan, Ann Arbor; and Donna Strickland from the University of Waterloo in Canada.

Steve Smith, who earned his Ph.D. doing research in a National Science Foundation Science and Technology Center directed by Mourou at the University of Michigan, was pleased to hear Mourow was receiving a share of the Nobel Prize.

“It’s nice he received a part of this prize. But it also gives acknowledgement to a lot of people in different areas of laser physics. That’s usually how it works—one person gets the prize but there are hundreds of people doing similar work that is very impactful, and this elevates their research as well,” said Smith, who is a professor and director of Nanoscience and Nanoengineering at the South Dakota School of Mines & Technology (SD Mines).

At Deep Talks: Nobel Day, Smith will discuss the topics relating to this year's Nobel Prize in Physics, including Mourou’s work in the field of laser physics and how it has impacted a variety of scientific and technologica...

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Last Edited 11/27/2018 09:51:18 AM [Comments (0)]

Remote Monitoring Stations Established at SD Mines in Build Up to DUNE

SD Mines physics graduate students and faculty at the remote monitoring station on campus include (left to right) Bhubnesh Lama, Luke Corwin, Ph.D., David A. Martinez Caicedo, Ph.D., Jairo Rodriguez and Michelle While.

Researchers in the Department of Physics at the South Dakota School of Mines & Technology are setting up new remote monitoring stations that allow them to take part in the international experiments MicroBooNE and NOvA.  Both world-class experiments are investigating properties of neutrinos, one of nature’s most elusive particles. Both projects are also led by Fermi National Accelerator Laboratory, which is funded by the U.S. Department of Energy.

Neutrinos rarely interact with other particles; they can pass through the entire planet as if it were empty space. In order to study such particles, scientists need to create an intense beam of them and send them continuously through a large detector for long periods of time. Because of the need for intense beams, these experiments are said to take place at the Intensity Frontier of particle physics.

These experiments are on the cutting edge of particle physics research.  They are part of a series of sophisticated neutrino research projects that include the Deep Underground Neutrino Experiment (DUNE), hosted by Fermilab, which will see a massive particle detector built a mile b...

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Last Edited 11/20/2018 05:04:42 PM [Comments (0)]

Termite Mounds Hide Secrets to Sustainable Buildings of the Future

Andrea Surovek, Ph.D., a research scientist from SD Mines’ Department of Mechanical Engineering, standing next to a termite mound in Namibia.

South Dakota School of Mines & Technology has been awarded $475,000 from the National Science Foundation to study how termites construct mounds with the idea that humans might one day adapt the energy-efficient homebuilding techniques of the insects. The award is a follow-up to a previous grant by NSF of $300,000.

Mines faculty researchers spent time in the African country of Namibia to study the shape and function of termite mounds. The mounds are resilient and naturally energy efficient. Their intricate interior designs provide ventilation and temperature regulation throughout what can easily be a 15-foot-tall home for a single colony of 2 million termites. 

“An understanding of the natural processes involved in termite mound construction and function can be adapted to inform engineering applications related to the construction of man-made structures that require zero or minimal energy inputs,” said the NSF award letter.

Co-principal investigator Andrea Surovek, Ph.D., a research scientist from SD Mines’ Department of Mechanical Engineering, has lead research that examined hundreds of slices of a termite mound and has developed three-dimensional models of numerous mounds using ...

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Last Edited 10/30/2018 03:21:47 PM [Comments (0)]

SD Mines Researchers Explore Hydraulic Fracturing to Expand Geothermal Energy

Liangping Li, Ph.D., (left) and Bill Roggenthen, Ph.D., (right) shown here in the EGS Collab at the 4850 level of the Sanford Underground Research Facility.

The use of hydraulic fracturing (or fracking as it’s commonly called in the press) has been a topic of contention in the oil and gas industry. However, researchers believe fracking can also be used at depth in hard rocks that contain no oil or gas to improve geothermal energy production. The process could enhance the use of the earth’s own heat as a source of clean energy.

Liangping Li, Ph.D., an assistant professor in the Department of Geology and Geological Engineering at the South Dakota School of Mines & Technology, has received an award from National Science Foundation (NSF) for his research entitled “Inverse Methods of Hydraulic Fracturing for Enhanced Geothermal Systems in a Deep Mine.” Li is working alongside projects already underway at the Sanford Research Facility (SURF) including kISMET (permeability (k) and Induced Seismicity Management for Energy Technologies) and the Enhanced Geothermal Systems (EGS) project. Hydraulic fracturing research at SURF uses no chemicals, so unlike some fossil fuel fracking operations, the fracking fluid used in these ...

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Last Edited 11/5/2018 09:28:37 AM [Comments (0)]