With Giant Lens, Astronomers Find a Single Star Across Half the Universe

Through a lucky quirk of nature, astronomers have used the Hubble Space Telescope to view a single star halfway across the universe. Nine billion light years from Earth, the giant blue-white star, nicknamed “Icarus” by the team, is by far the most distant individual star ever seen.

Distant star image

Icarus is the farthest individual star ever seen. It is only visible because it is magnified by the gravity of a massive galaxy cluster, located about 5 billion light-years from Earth. The panels at right show the view in 2011, without Icarus visible, and the star’s brightening in 2016. (Hubble/STScI)

Italian Dark Matter Experiment Completes Run, Sets Stage for Next Experiment

The DarkSide-50 experiment at the Gran Sasso National Laboratory in Italy has completed its experimental run, the research collaboration announced today (Feb. 21). The experiment did not find any potential dark matter particles, but it did demonstrate that the technology could reject “false positive” signals from natural radioactivity or other sources. That will give researchers more confidence in data from the next, larger experiment, DarkSide-20k.

Dark Matter detector

Schematic of the DarkSide-50 detector. The cylinder is filled with liquid argon, which gives off a flash of light when a particle enters the chamber. This light is detected by photomultiplier tubes at top and bottom. (DarkSide-50 collaboration)

LUX Dark Matter Experiment Ends Run, Still No Dark Matter

UC Davis grad student in LUX chamber

UC Davis graduate student Jeremy Mock inspecting the LUX detector before the chamber was filled with water. Credit: Matt Kapust/Sanford Lab

The Large Underground Xenon (LUX) dark matter experiment, which operates beneath a mile of rock at the Sanford Underground Research Facility in the Black Hills of South Dakota, has completed its silent search for the missing matter of the universe.

The experiment did not find a dark matter particle, but it did eliminate a wide swath of mass ranges where a Weakly Interacting Massive Particle, or WIMP, the leading theoretical candidate for dark matter, might exist, team members said.