University of California, Berkeley | 2015 Aug 20
If dark energy is hiding in our midst in the form of hypothetical particles called "chameleons," Holger Müller and his team at the University of California, Berkeley, plan to flush them out.
[img3="The vacuum chamber of the atom interferometer contains a one-inch diameter aluminum sphere. If chameleons exist, cesium atoms would fall toward the sphere with a slightly greater acceleration than their gravitational attraction would predict. (Credit: Holger Muller)"]http://news.berkeley.edu/wp-content/upl ... ere750.jpg[/img3][hr][/hr]The results of an experiment reported in this week's issue of Science narrows the search for chameleons a thousand times compared to previous tests, and Müller, an assistant professor of physics, hopes that his next experiment will either expose chameleons or similar ultralight particles as the real dark energy, or prove they were a will-o'-the-wisp after all.
Dark energy was first discovered in 1998 when scientists observed that the universe was expanding at an ever increasing rate, apparently pushed apart by an unseen pressure permeating all of space and making up about 68 percent of the energy in the cosmos. Several UC Berkeley scientists were members of the two teams that made that Nobel Prize-winning discovery, and physicist Saul Perlmutter shared the prize.
Since then, theorists have proposed numerous theories to explain the still mysterious energy. It could be simply woven into the fabric of the universe, a cosmological constant that Albert Einstein proposed in the equations of general relativity and then disavowed. Or it could be quintessence, represented by any number of hypothetical particles, including offspring of the Higgs boson. ...
UCLA physicist tests theories of dark energy by mimicking the vacuum of space
University of California, Los Angeles | 2015 Aug 20
Atom-interferometry constraints on dark energy - Paul Hamilton et al
- Science 349(6250) 849 (21 Aug 2015) DOI: 10.1126/science.aaa8883
arXiv.org > physics > arXiv:1502.03888 > 13 Feb 2015 (v1), 02 Jul 2015 (v3)