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 Archive:
March, 2017

SD Mines Researchers Help Ensure a Clean Signal in Next-Gen Dark Matter Detector at Sanford Lab

Lab technician Rashyll Leonard completes connections for collecting radon from the LUX experiment underground at SURF during decommissioning, September 20, 2016. Photo credit: Dr. Eric Miller.

The LUX-ZEPLIN (LZ) dark matter detector in the Sanford Underground Research Facility (SURF) in Lead reached a major milestone this week. U.S. Department of Energy approval for the final design of the LZ experiment launches the construction phase and pushes the project toward the completion goal of April, 2020. Next-gen dark matter detectors have become sensitive enough that researchers around the world are now more confidently racing to be the first to directly observe the existence of dark matter particles. LZ is in direct competition with two projects in Italy and China. Researchers at South Dakota School of Mines &Technology are playing a key role in the detection and removal of radon from the sensitive equipment to ensure LZ has the cleanest signal possible.

"Physicists at Mines are playing a role in one of the most exciting physics experiments in the world,” said SD Mines President Heather Wilson.

LZ is being placed almost a mile underground to reduce the impact of cosmic rays that can hide the potential dark matter signal. But other types of background radiation and contamination can also produce false signals and hurt the effort to detect dark matter. Researchers must painstakingly measure all components of LZ for naturally occurring radiation. One challenge is the removal of radon, a naturally occurring radioactive gas that could interfere with dark ...

Last Edited 6/13/2017 10:34:47 AM [Comments (0)]