Scotland is to host a quantum light source that is travelling across 12 countries in Europe.
Electrons typically travel at high speeds, zipping through matter unbound. In the 1930s, physicist Eugene Wigner predicted that electrons could be coaxed into stillness at low densities and cold temperatures, forming an electron ice that would later be called the Wigner crystal.
Study finds that demagnetized Martian basins may indicate a reversing dynamo, not early cessation, impacting our understanding of Mars's magnetic evolution.
By Silpaja Chandrasekar
7 Nov 2024
In a significant discovery that was published in Nature, researchers from the University of Innsbruck have finally seen quantized vortices in a rotating two-dimensional supersolid
According to a study published in Nature, a research team led by Caltech has discovered massive star-forming galaxies, not low-mass ones, are the universe’s most likely locations for fast radio bursts (FRBs).
European scientists are using diamonds to build a new quantum computer that works without needing to be cooled to ultra-low temperatures.
The Pa 30 nebula study uncovers its complex morphology and confirms its origin from a historical supernova, highlighting asymmetric explosion characteristics.
By Silpaja Chandrasekar
6 Nov 2024
A team of scientists from the National Institute for Astrophysics (INAF), the University of Bologna, and Indiana University published a study in Astronomy & Astrophysics that represents a major advancement in the understanding of the development and dynamical evolution of multiple stellar populations in globular clusters, which are spherical and extremely compact stellar agglomerates that are usually home to one to two million stars.
This study reveals a novel method for screening materials for fusion reactors, aiming to enhance performance under extreme conditions.
Quantum machine learning methods, including QSVM and QCNN, show promise in manufacturing by enhancing anomaly detection and reducing parameter requirements.
By Silpaja Chandrasekar
5 Nov 2024
A team of astronomers from the U.S. National Science Foundation NOIRLab astronomers has discovered a supermassive black hole at the center of a galaxy that formed just 1.5 billion years after the Big Bang. This black hole is consuming matter at an astonishing rate—over 40 times the theoretical limit—using data from NASA’s James Webb Space Telescope (JWST) and the Chandra X-ray Observatory. These findings were published in Nature Astronomy.
Argonne is among a group of institutions chosen by the Simons Foundation and the US National Science Foundationto receive funding for the creation of the NSF-Simons AI Institute for the Sky (SkAI), an institute focused on AI and astronomy.
Scintillators are detectors that make high-energy X-rays or particles visible through flashes of light to form an image. Their many applications include particle physics, medical imaging, X-ray security and more.
A research team led by the Department of Energy's Oak Ridge National Laboratory has devised a unique method to observe changes in materials at the atomic level. The technique opens new avenues for understanding and developing advanced materials for quantum computing and electronics.
Astronomers have used NASA’s Hubble and James Webb space telescopes to capture unprecedented details of the extensive debris disk encircling Vega, one of the brightest stars in the night sky.