Physicists have been searching for dark matter particles for years. Now, though, scientists have announced that researchers may want to consider looking for candidate particles that are far more massive than the tiny, exotic particles that are currently being studied.
Scientists may have found a way to establish a strong connection between two single photons with the help of a glass fiber.
The theory of parallel universes has long persisted in quantum science. Now, a team of researchers has a radical new theory when it comes to the existence of, and the interactions between, parallel worlds.
Could the wave function of an electron be divided? That may just be the case. While electrons are elementary particles, which means that they are essentially unbreakable, scientists have found that the electron's quantum state can be separated into many parts.
Scientists have taken a closer look at prehistoric pieces of art and have found that they may have been inspired by the behaviors of sound waves behind misinterpreted as "supernatural."
Physicists may have uncovered new important clues about the nature of our universe. They've made important discoveries concerning Bs meson particles, which may explain why the universe contains more matter than antimatter.
Scientists may have made the first ever direct detection of dark matter, the mysterious material that has long puzzled physicists. The findings could mean a whole new way to look at the universe
Scientists have discovered a new subatomic particle that could shed light on the fundamental force of nature that binds the nuclei of atoms. The particle will provide greater understanding of the strong reaction that's found within the protons of an atom's nucleus.
The 2014 Nobel Prize in Physics has officially been awarded to Isamu Akasaki of Meijo University in Japan and to Hiroshi Amano of Nagoya University in Japan and to Shuji Nakamura of the University of California.
Scientists have managed to teleport the quantum state of a photon to a crystal over 25 kilometers of optical fiber.
Understanding cosmic rays is an important part of understanding dark matter. Now, scientists have taken a closer look at these rays, shedding light into the nature of the excess of positrons observed in the flux of cosmic rays.
Scientists have created a new detector that may eventually lead to a generation of devices that can peer below the surface of bodies, walls and other objects. Using graphene, scientists have constructed a prototype detector that can see a broad band of wavelengths.