Browsing: physicists
Igor Pikovsky, a physicist at Stevens Institute of Technology, along with his team, is pioneering an innovative experiment aimed at capturing individual gravitons—particles previously believed to…
New insights challenge the long-held belief that dark matter was “cold” in the immediate aftermath of the Big Bang. A groundbreaking study from the University of…
Dark Photons: A New Explanation for the Double-Slit Experiment Russell Kightley/Science Photo Library This year, a fundamental aspect of quantum theory faced scrutiny when researchers introduced…
Researchers within the MicroBooNE (Micro Booster Neutrino) collaboration have determined, with 95% probability, that a single sterile neutrino does not exist. Utilizing data from the MicroBooNE…
Sure! Here’s a rewritten version of the content while preserving the HTML tags: How many pieces can a dropped vase break into? Imaginechina Limited / Alamy…
Knots are prevalent in various fields of mathematics and physics today. A collaborative team of Japanese and German physicists proposes the existence of a “knot-dominated epoch”…
STAR detector of the relativistic heavy ion collider Brookhaven National Laboratory We are making strides toward comprehending when the powerful nuclear force weakens its influence on…
Researchers from MIT and the University of Texas at Arlington suggest that supercooling radioactive atoms may enable the creation of laser-like neutrino beams. They illustrate this…
Researchers from Ames National Laboratory and Iowa State University have unveiled the emergence of Higgs echoes in niobium superconductors. These findings shed light on quantum behavior…
Can you envision the impression a 4D hexagon might create as it travels through a 3D kitchen table? It might seem implausible, yet some individuals can…
At the Accelerator Laboratory of the University of Zibaskira in Finland, physicists utilized a gas-filled recoil separator focal plane spectrometer to observe two attenuation events of…
Researchers have successfully conducted the first real-time 3D simulation demonstrating how a powerful laser beam alters the quantum vacuum. Remarkably, these simulations reflect the unusual phenomena…
Researchers from the Muon G-2 Experiment have unveiled their third measurement of the Muon magnetic anomaly. The conclusive results align with findings published in 2021 and…
Collisions involving high-energy lead nuclei at CERN’s Large Hadron Collider generate a powerful electromagnetic field capable of displacing protons and converting lead into ephemeral gold nuclei.…
Sure! Here’s the rewritten content: A novel theory formulated by physicists at Aalto University provides a new perspective on gravity that aligns with established particle physics…
Melvin Vopson, a physicist from the University of Portsmouth, introduces a novel perspective on gravity. This artist’s impression illustrates the evolution of the universe, starting with…
According to a team of Harvard physicists, the structure of the optically rotating animal continues in a logarithmic spiral. The evolution of light beams carrying the…
Using the 88-inch cyclotron from the Lawrence Berkeley National Laboratory, an international team of physicists successfully created two atoms Rivermorium (Atomic Symbol LV) A breakthrough in…
Physicists of the Karlsrue Tritium Neutrino (Catlin) experiment have reported so far the most accurate measurement of the upper mass limit of neutrinos, establishing it as…
According to a team of physicists at the University of Massachusetts at Amherst, liquids that recover the newly discovered shapes go against years of expectation derived…
Thomas BirgissFood Physicists at the Max Planck Institute for Polymer Research in Germany, have been in love with foie gras for a quarter century. The gorgeous…
Physicists have long known that electrons can form vortices from quantum materials. What's new is evidence that these small particles create tornado-like structures in momentum space.…
Ultra-high energy cosmic rays are the highest energy particles in the universe, and their energy is more than one million times greater than what humans can…
The physicist with Atlas collaboration We presented our first observations of VVZ production at Cern's large Hadron Collider. This is a rare combination of three giant…
Dr. Ross Young at the University of Adelaide and colleagues at the QCDSF collaboration are investigating the structure of the subatomic problem, which seeks to provide…
A physicist in charge of CERN’s large -scale Hadronco Rider has tested whether top queks follow Albert Einstein’s special theory. Installation of CMS beam pipe. Image…
The standard model of particle physics predicts an asymmetry between matter and antimatter known as charge parity (CP) violation. However, the size of this asymmetry in…
Physicists are Alice Collaboration. Evidence of antihyperhelium-4 has been seen for the first time at CERN’s Large Hadron Collider (LHC). Antihyperhelium-4 consists of two antiprotons, an…
The generation of top quark pairs is observed This process of interaction between atomic nuclei was observed for the first time in lead-lead collisions at CERN's…
Physicists are GSI/FAIR accelerator facility gained insight into the structure of the atomic nucleus. Fermium is a synthetic chemical element of the actinide series with atomic…
Accurate description of low-density nuclear matter is critical to explaining the physics of the neutron star’s crust, according to a team of theoretical physicists led by…
In an experiment, physicists from the University of Bonn and the University of Kaiserslautern-Landau observed and studied the properties of a one- to two-dimensional crossover in…
Physicists from the STAR Collaboration have observed an antimatter hypernucleus, antihyperhydrogen-4, consisting of an antihypernucleus, an antiproton, and two antineutrons, in nuclear collisions at the Relativistic…
Jacqueline Gates of Lawrence Berkeley National Laboratory isolating livermorium atoms.Marilyn Sargent/Berkeley Lab 2024 Regents of the University of California The third heaviest element in the universe…
Physicists have been intrigued by χc1(3872), also known as X(3872), since its discovery two decades ago. They have been exploring whether it is a conventional charmonium…
A hyperon is a particle that contains three quarks, like a proton or a neutron, and one or more strange quarks. Physicists from the LHCb collaboration…
Physicists at the University of Vienna have used a maximally entangled quantum state of light paths in a large interferometer to experimentally measure the speed of…
Quantum Electrodynamics (QED) Atoms are composed of unstructured point-like lepton pairs held together by electromagnetic forces. An artist's impression of a true tauonium. Image credit: Fu…
Physicist from CMS cooperation at CERN just published the combination of CMS measurements that helped establish the discovery of the Higgs boson in 2012. CMS event…
Physicists from the CMS Collaboration at CERN’s Large Hadron Collider (LHC) have successfully measured the effective leptonic electroweak mixing angle. The results were presented at the…