Except in horror movies, most scientific experiments don’t start with scientists snooping around narrow, deserted hallways. But a tucked-away location in the recesses of the Department of Energy’s (DOE) Oak Ridge National Laboratory (ORNL) provided exactly what Yuri Efremenko was looking for. Efremenko, an ORNL researcher and University of Tennessee

Neutrino Energy announces that it has submitted U.S. patent applications for what it calls the real “Da Vinci Code”: converting neutrino energy into electricity. “Geometry is the key to unlocking the Secret” NEUTRINO Inc., Neutrino Deutschland GmbH, and the Neutrino ENERGY Forschungs- and Entwicklungs-UG all belong to the Neutrino Energy

The technology for harnessing neutrino is becoming a reality as researchers begin to unravel its secrets. In the foreseeable future, neutrinos transformers may do what solar cells are capable of doing with one big difference – since it is not dependent on sunlight, it can generate energy even in the

“Neutrinos are the energy source of the future,” explains Schubart, quoting the United States Department of Energy. “Today science is finally in a position to tap the unbelievable potential of these subatomic particles for the betterment of mankind.” In an interview aired on “TV Berlin” Schubart spoke of the almost

These high-energy particles coming from the radioactive decay light and other sources hit the earth from all points in a continuous stream – unseen, unfelt, but constantly changing in flight. If we go by Einstein’s Theory of Relativity then anything that has mass, no matter how minute contains energy. While the idea

A team from NEUTRINO Germany GmbH made up of international researchers and universities is currently working under the supervision of Holger Thorsten Schubart on the development of the first technical devices that will be able to convert NEUTRINO energy into electrical power for the end user. NEUTRINO Germany GmbH is

The MINERvA collaboration analyzed data from the interactions of an antineutrino—the antimatter partner of a neutrino—with a nucleus. They were surprised to find evidence that antineutrinos interacted with pairs of particles inside the nucleus. They had expected antineutrinos to interact with just single protons or neutrons. To see this evidence,

Researchers have shown that they can shield a sensitive, scalable 44-kilogram germanium detector array from background radioactivity, a key step towards solving a much bigger mystery. If equal amounts of matter and antimatter had formed in the Big Bang more than 13 billion years ago, they would have annihilated one