Accelerating subatomic particles to almost the speed of light and then crashing them together reveals much about the nature of the matter.
Read More »Category Archives: Spiritual Development News
Feed SubscriptionEmerging from the vortex
Whether a car or a ball, the forces acting on a body moving in a straight line are very different to those acting on one moving in tight curves.
Read More »Novel link between optical fibers, nanometer-scale silicon structures could aid development of integrated optical circui
Silicon is a unique material that has revolutionized electronics; it enables engineers to put millions of electrical devices onto a single chip. Replacing the electrical currents in this technology with beams of light could enable even faster information processing. Qian Wang at the A*STAR Data Storage Institute and co-workers1 have now designed a crucial component for such optical chips a connector that links the silicon chip to an optical fiber.
Read More »Physicists discover evidence of rare hypernucleus, a component of strange matter
(PhysOrg.com) -- Physicists in Italy have discovered the first evidence of a rare nucleus that doesnt exist in nature and lives for just 10-10 seconds before decaying.
Read More »Mother of pearl tells a tale of ocean temperature, depth
Nacre -- or mother of pearl, scientists and artisans know, is one of nature's amazing utilitarian materials.
Read More »Researchers create ‘tornados’ inside electron microscopes
Researchers from the University of York are pioneering the development of electron microscopes which will allow scientists to examine a greater variety of materials in new revolutionary ways.
Read More »Origin of large polarization in multiferroic YMnO3 thin films
Multiferroic materials have attracted much interest because of their ability to control magnetism through the application of a voltage. This ability can be utilized to reduce the power required by electronic devices and to increase their speed
Read More »Virtual ghost imaging: New technique enables imaging even through highly adverse conditions
Ghost imaging (GI), and its even more oddly named cousin virtual ghost imaging (VGI), seem to contradict conventional wisdom by being able to image an object by simply counting photons in a "light bucket." This non-intuitive technique, however, can lead to better images when conditions are less than ideal. In a first-of-its-kind demonstration, a team of researchers from the U.S. Army Research Laboratory in Adelphi, Md., and the University of Maryland in Baltimore, captured reflected photons from a highly specialized laser beam to create a VGI image of a remote target.
Read More »New ‘soft’ motor made from artificial muscles
The electrostatic motor, used more than 200 years ago by Benjamin Franklin to rotisserie a turkey, is making a comeback in a promising new design for motors that is light, soft, and operates without external electronic controllers.
Read More »Canadian Isotope Project enters final stretch
A research project exploring the potential for making medical isotopes with X-rays from a particle accelerator instead of a nuclear reactor is about to move to the large scale.
Read More »Plasmas torn apart: Physicists make discovery that hints at origin of phenomena like solar flares
January saw the biggest solar storm since 2005, generating some of the most dazzling northern lights in recent memory.
Read More »$8.5 million research initiative will study best approaches for quantum memories
The U.S. Air Force Office of Scientific Research (AFOSR) has awarded $8.5 million to a consortium of seven U.S.
Read More »Space diamonds reveal supernova origins
Space diamonds may now be an astrophysicist's best friend.
Read More »At Yale, quantum computing is a (qu)bit closer to reality
(PhysOrg.com) -- Physicists at Yale University have taken another significant step in the development of quantum computing, a new frontier in computing that promises exponentially faster information processing than the most sophisticated computers of today.
Read More »Spin-orbit sum rule to speed up X-ray scattering research
A new theory developed by Prof Gerrit van der Laan, from the Science & Technology Facilities Council (STFC) and Diamond Light Source, and published this week in the journal Physical Review Letters, provides a powerful sum rule that scientists can use to explore the properties of novel materials, such as those used for spintronics devices.
Read More »