In a study published in Nature Astronomy, a group of international researchers led by astronomers at the University of Hawai'i Institute for Astronomy is upending the comprehension of the universe with ground-breaking discoveries that imply the cosmic neighborhood may be far larger than previously believed.
As they reported in a study in Physical Review Letters, researchers from the University of Manchester searched for hints by comparing the distribution of galaxies to the cosmic microwave background (CMB), the afterglow of the Big Bang.
In a recent study published in the journal Physical Review Research, scientists from Tohoku University investigated the efficacy of the squeezing method in augmenting the accuracy of measurements in quantum systems including numerous components.
Hayato Goto of the RIKEN Center for Quantum Computing in Japan has presented a novel quantum error correction method utilizing "many-hypercube codes" in a study that was published in Science Advances.
According to a theoretical analysis by a RIKEN Physicist and two colleagues, lab experiments around the world that are preparing to recreate the enigmatic phase of matter seen in the early Universe could also produce the world's strongest electromagnetic fields.
Archer Materials Limited (“Archer”), a semiconductor company advancing the quantum technology and medical diagnostics industries, has developed a highly manufacturable carbon film with attractive quantum properties including long room-temperature electron spin lifetimes.
Astronomers using NASA's Hubble Space Telescope have discovered that stars appear to erupt along the path of a supermassive black hole's blowtorch-like jet, located at the center of a massive galaxy.
A team of European scientists is developing new space sensors that use quantum technologies to measure acceleration with great precision. This research marks a critical step towards future space missions that will track subtle changes in Earth’s gravity field.
For the first time, physicists at CERN confirmed quantum entanglement between top and anti-top quarks during proton collisions.
By Silpaja Chandrasekar
26 Sep 2024
Astronomers discovered a unique galaxy, GS-NDG-9422, in the early Universe. This galaxy's gas outshines its stars, a phenomenon never seen before.
Researchers demonstrated that hybrid quantum-classical solvers, such as D-Wave's, can efficiently optimize automatic guided vehicle (AGV) scheduling in factories. This approach combines quantum computing with classical heuristics, offering enhanced performance for complex industrial applications
By Silpaja Chandrasekar
25 Sep 2024
Researchers at CERN have uncovered a decay process for extremely rare particles, providing a new avenue for the search for physics beyond the interaction of matter's constituent elements.
Researchers have developed a micro-electro-mechanical system-based generic actuation platform for two-dimensional (2D) materials (MEGA2D), which allows for precise control of the twist angle in materials such as graphene.
By Silpaja Chandrasekar
24 Sep 2024
Researchers from the University of Waterloo have shown in a study published in Nature Communications that they can measure and reset a trapped ion qubit to a known state without interfering with nearby qubits that are only a few micrometers away—a distance that is less than the thickness of a human hair, which is roughly 100 micrometers.
Astronomers used the Dark Energy Camera (DECam) to confirm that early-Universe quasars form in densely populated regions of space, revealing why previous studies yielded conflicting results.