Research groups at Aalto University and the University of Jyväskylä have demonstrated a new microwave measurement method that goes to the quantum limit of measurement and beats it.| AZoQuantum
Recent breakthroughs in astrophysics have unveiled a fascinating connection between the gamma-ray flares of blazars and the elusive high-energy neutrinos, offering new insights into the most energetic phenomena in the universe and potentially revolutionizing our understanding of cosmic ray origins.???????| AZoQuantum
A Northwestern University-led team of astrophysicists, utilizing NASA’s James Webb Space Telescope (JWST), has conducted groundbreaking research on galaxies in their 'teenage' years.| AZoQuantum
Ben Sheridan of BSI leads the first international quantum technology committee, setting standards for quantum innovation and global collaboration.| AZoQuantum
In a new feature on AZoQuantum, we speak with Associate Professor Kate Brown and Theoretical Physicist Harsh Mathur about their research investigating Modified Newtonian Dynamics and its implications for the Ninth Planet theory.| AZoQuantum
In a new interview feature, AZoQuantum speaks with Dr. Samuli Autti about his new research investigating the tactile sensation of superfluid 3He.| AZoQuantum
Observed first in 2016, gravitational waves provide new insights about the universe, with the ability to describe everything from the time soon after the Big Bang to latest events in galaxy centers.| AZoQuantum
Quantum vacuum fluctuations can influence the motion of macroscopic, human-scale objects.| AZoQuantum
The galaxy GLASS-z13 existed when the Universe was just 300 million years old.| AZoQuantum
Researchers developed and tested a questionnaire on quantum measurement, revealing that two-state teaching methods enhance student comprehension in physics.| AZoQuantum
A study on XYZ particles reveals that multiple states could represent a single resonance, simplifying interpretations of experimental data using lattice QCD.| AZoQuantum
Quantum Field Theory provides a sophisticated framework for understanding particle interactions, influencing both theoretical and applied physics domains.| AZoQuantum
Certain types of supernovae, or exploding stars, are more diverse than previously thought, a University of Arizona-led team of astronomers has discovered. The results, reported in two papers published in the Astrophysical Journal, have implications for big cosmological questions, such as how fast the universe has been expanding since the Big Bang.| AZoQuantum
Quantum computing is paving the way to a new era of financial systems which will make portfolio management, payment systems, and risk management a lot easier - but could come at a safety cost.| AZoQuantum
NASA's Parker Solar Probe conducts groundbreaking studies of the Sun, revealing insights into solar winds and space weather with unprecedented close-up data.| AZoQuantum
Qubit instability poses a challenge for quantum computing, but quantum error correction offers promising solutions.| AZoQuantum
New infrared observations of Sagittarius A* uncover flaring activity in its accretion disk, advancing knowledge of black holes and their role in the universe.| AZoQuantum
A research team at the Chinese Academy of Sciences realized that gamma-ray bursts (GRB) offers a unique opportunity to search for gamma-ray lines in the spectrum, which are crucial but have never been detected in a GRB before, given its record-breaking brightness and rich observation data sets.| AZoQuantum
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X-ray emission (XES), otherwise known as X-ray fluorescence (XRF), is a powerful tool used for the identification of elements in compounds.| AZoQuantum
The race is on for nations to establish themselves at the forefront of the quantum revolution, with academic, federal, and private investments of time, resources, and brainpower flooding into the field. One country that is well on the way to marking itself as a world leader in quantum technology is the Netherlands.| AZoQuantum
The most powerful telescope ever devised zoomed in on the dynamic star-forming region NGC 346 for a clue as to how stars were born in the early universe.| AZoQuantum
New data from the JWST has provided insights into the atmospheric composition of the exoplanet WASP-39B. What does this breakthrough mean for our understanding of other worlds and our search for life elsewhere in the universe?| AZoQuantum
Neutrinos are elementary particles known for displaying weak interactions. As a result, neutrinos passing each other in the same place hardly notice one another. Yet, neutrinos inside a supernova collectively behave differently because of their extremely high density.| AZoQuantum
Neutrinos are a type of particle that pass through just about everything in their path from even the most distant regions of the universe. The Earth is constantly bombarded by billions of neutrinos, which zip right through the entire globe, houses, animals, people - everything. Only very rarely do they react with matter, but the giant IceCube experiment at the South Pole can detect when there is a collision between neutrinos and atoms in the ice using a network of detectors.| AZoQuantum
This article explores the evolution, principles, applications, and future prospects of quantum computing processors.| AZoQuantum
Dark matter was likely the starting ingredient for brewing up the very first galaxies in the universe. Shortly after the Big Bang, particles of dark matter would have clumped together in gravitational “halos,” pulling surrounding gas into their cores, which over time cooled and condensed into the first galaxies.| AZoQuantum
Stars serve as laboratories for the nuclear reactions that control their fundamental behavior within the vastness of the cosmos. A vital astronomical process called nucleosynthesis shapes the development of chemical elements within stars during their life cycle, dramatically affecting the universe's composition.| AZoQuantum
The universe is expanding, and it is doing so at an accelerating rate. However, lingering questions about universal expansion do remain. Assistant Professor of Theoretical Physics at the University of Geneva, Lucas Lombriser, has put forward an extraordinary suggestion.| AZoQuantum
The collision of protons with bulkier ions (atomic nuclei) has been done by nuclear physicists to examine the basic constituents that are responsible to compose those ions.| AZoQuantum
Physicists at Southern Methodist University, Dallas, have achieved a new precise measurement of a key subatomic particle, opening the door to better understanding some of the deepest mysteries of our universe.| AZoQuantum
Gravitational waves, tiny ripples in spacetime that Einstein believed are too faint ever to be detected, are revolutionizing both our understanding and our view of the cosmos.| AZoQuantum
Just weeks into its mission the $10 billion space telescope is delivering stunning science and spectacular images.| AZoQuantum
AZoQuantum talks to Dr. Sunny Vagnozzi, a researcher at the University of Cambridge, about his work relating to the direct detection of dark energy.| AZoQuantum
Active galactic nuclei are known to be the strongest compact steady sources of energy in the universe. This has been powered by supermassive black holes that tend to swallow matter in the galaxies’ center.| AZoQuantum
The discovery points to a vast subsurface fracture network that may be more habitable for microbial life than the harsh Martian surface.| AZoQuantum
Cosmic ray research spanning a century has led us to a new era where these rays hold the potential to shed light on unresolved topics such as dark matter and dark energy, thanks to their energies surpassing those achievable by accelerators on Earth.| AZoQuantum
A stunning new image captured by the Dark Energy Camera (DECam) reveals the Circinus West molecular cloud, a dense, dark region where young stars are actively forming.| AZoQuantum
AZoQuantum spoke to Matthew Walker, associate professor of astrophysics and cosmology at Carnegie Mellon University, about the James Webb Telescope and the dark matter research that hopes to draw on its findings.| AZoQuantum
Exploring quantum physics' role in enhancing solar cell efficiency, focusing on Perovskite Quantum Dots and inter-subband transitions.| AZoQuantum
NTT Corporation in cooperation with the University of Tokyo (President: Teruo Fujii, Bunkyo-ku, Tokyo) and RIKEN has developed an optical fiber-coupled quantum light source (squeezed light source), which is a key technology for realizing a fault-tolerant large-scale universal optical quantum computer.| AZoQuantum
The weakly interacting “ghost particles” were created in the Large Hadron Collider, the world’s most powerful particle accelerator.| AZoQuantum
