A dream of advocates of low cost space access has been beam propulsion of various types, whether laser, microwave, or particle beams.
Category: particle physics – Page 585
Scientists Made the Fastest-Spinning Molecules Ever to Test the Limits of Physics
Scientists made molecules that spin around each other a billion times per second, the fastest mechanical rotation on record. They want to use these spinning molecules to study the very fabric of spacetime.
The two independent teams were studying how light’s energy could make molecules move, and ended up generating incredible spin frequencies. But if the spins are fast enough, it could be a way to measure the friction that particles might feel against spacetime itself.
The Father of the Big Bang Theory
Monsignor Georges Lemaître was a Belgian Roman Catholic priest, physicist and astronomer. He is usually credited with the first definitive formulation of the idea of an expanding universe and what was to become known as the Big Bang theory of the origin of the universe, which Lemaître himself called his “hypothesis of the primeval atom” or the “Cosmic Egg”.
Georges Henri Joseph Édouard Lemaître was born on 17 July 1894 at Charleroi, Belgium. After a classical education at a Jesuit secondary school, the Collège du Sacré-Coeur in Charleroi, he began studying civil engineering at the Catholic University of Leuven (Louvain) at the age of 17. In 1914, he interrupted his studies to serve as an artillery officer in the Belgian army for the duration of World War I, at the end of which he received the Military Cross with palms.
New Higgs Boson Discovery Could Help Solve Cosmic Puzzle
Scientists can’t take pictures of the Higgs boson. But they can find proof of its existence by watching “E=mc” play out in hundreds of millions of particle collisions per second and detecting how it decays into other particles they do know how to spot. Now, six years after officially discovering the Higgs boson, particle physicists are announcing that they’ve spotted the Higgs in another way.
This announcement isn’t a surprise. It matches the predictions of the Standard Model of particle physics, the rock-solid but probably incomplete blueprint of the Universe on the smallest scales. But the news is certainly important; you might say it closes the first chapter of the Higgs boson’s story, and offers a potential window to explore some of most confounding questions in the Universe.
Semiconductor quantum transistor opens the door for photon-based computing
Transistors are tiny switches that form the bedrock of modern computing; billions of them route electrical signals around inside a smartphone, for instance.
Quantum computers will need analogous hardware to manipulate quantum information. But the design constraints for this new technology are stringent, and today’s most advanced processors can’t be repurposed as quantum devices. That’s because quantum information carriers, dubbed qubits, have to follow different rules laid out by quantum physics.
Scientists can use many kinds of quantum particles as qubits, even the photons that make up light. Photons have added appeal because they can swiftly shuttle information over long distances, and they are compatible with fabricated chips. However, making a quantum transistor triggered by light has been challenging because it requires that the photons interact with each other, something that doesn’t ordinarily happen on its own.