Scientists will need further analysis to discern whether dark matter caused any of the COUPP-60 experiment’s first bubbles.
“Our goal is to make the most sensitive detector to see signals of particles that we don’t understand,” said Hugh Lippincott, a postdoc with the Department of Energy’s Fermi National Accelerator Laboratory who has spent much of the past several months leading the installation of the one-of-a-kind detector in a laboratory a mile and a half underground.
COUPP-60 is a dark-matter experiment funded by DOE’s Office of Science. Fermilab managed the assembly and installation of the experiment’s detector.
The COUPP-60 detector is a jar filled with purified water and CF3I — an ingredient found in fire extinguishers. The liquid in the detector is kept at a temperature and pressure slightly above the boiling point, but it requires an extra bit of energy to actually form a bubble. When a passing particle enters the detector and disturbs an atom in the clear liquid, it provides that energy.
Dark-matter particles, which scientists think rarely interact with other matter, should form individual bubbles in the COUPP-60 tank.
“The events are so rare, we’re looking for a couple of events per year,” Lippincott said.
Other, more common and interactive particles such as neutrons are more likely to leave a trail of multiple bubbles as they pass through.
Over the next few months, scientists will analyze the bubbles that form in their detector to test how well COUPP-60 is working and to determine whether they see signs of dark matter. One of the advantages of the detector is that it can be filled with a different liquid, if scientists decide they would like to alter their techniques.
The COUPP-60 detector is the latest addition to a suite of dark-matter experiments running in the SNOLAB underground science laboratory, located in Ontario, Canada. Scientists run dark-matter experiments underground to shield them from a distracting background of other particles that constantly shower Earth from space. Dark-matter particles can move through the mile and a half of rock under which the laboratory is buried, whereas most other particles cannot.
Scientists further shield the COUPP-60 detector from neutrons and other particles by submersing it in 7,000 gallons of water.
Scientists first proposed the existence of dark matter in the 1930s, when they discovered that visible matter could not account for the rotational velocities of galaxies. Other evidence, such as gravitational lensing that distorts our view of faraway stars and our inability to explain how other galaxies hold together if not for the mass of dark matter, have improved scientists’ case. Astrophysicists think dark matter accounts for about a quarter of the matter and energy in the universe. But no one has conclusively observed dark-matter particles.
Media Contacts:
Andre Salles
Fermilab Office of Communication
+1 630-840-3351
media@fnal.gov
Steve Koppes
University of Chicago
+1 773-702-8366
skoppes@uchicago.edu
Samantha Kuula
SNOLAB
+1 705-692-7000 x2222
Samantha.kuula@snolab.ca
Kathy Borlik
Indiana University South Bend
+1 574-520-4345
kborlik@iusb.edu
Steve Mackay
Virginia Tech
+1 540-231-4787
smackay@vt.edu
Mary Beckman
Pacific Northwest National Laboratory
+1 509-375-3688
mary.beckman@pnnl.gov
Megan Fellman
Northwestern University
+1 847-491-3115
fellman@northwestern.edu
Science Contacts:
Hugh Lippincott
Fermilab
+1 630-840-3258
hugh@fnal.gov
Juan Collar
University of Chicago
+1 773-702-4253
collar@uchicago.edu
The COUPP experiment includes scientists, technicians and students from the University of Chicago, Indiana University South Bend, Northwestern University, University of Valencia, Virginia Tech, Fermi National Accelerator Laboratory, Pacific Northwest National Laboratory and SNOLAB.
Fermilab (http://www.fnal.gov) is America’s premier national laboratory for particle physics research. A U.S. Department of Energy Office of Science laboratory, Fermilab is located near Chicago, Illinois, and operated under contract by the Fermi Research Alliance, LLC.
The DOE Office of Science (http://science.energy.gov) is the single largest supporter of basic research in the physical sciences in the United States, and is working to address some of the most pressing challenges of our time.