Articles by Tejasri Gururaj
Phys.org / New superheavy isotope reveals complex relationship between quantum effects and fission
In a study published in Physical Review Letters, scientists at GSI Helmholtzzentrum für Schwerionenforschung have discovered a new superheavy isotope, 257Sg (seaborgium), whose properties are providing new insights into nuclear ...
Phys.org / Powerful magnets could unlock detection of high-frequency gravitational waves
New research published in Physical Review Letters suggests that superconducting magnets used in dark matter detection experiments could function as highly precise gravitational wave detectors, thereby establishing an entirely ...
Phys.org / New theoretical framework reveals hidden complexity in black hole ringdown signals
In a recently published paper in Physical Review Letters, scientists propose a comprehensive theoretical framework indicating that gravitational wave signals from black hole mergers are more complex than earlier anticipated.
Phys.org / From spin glasses to quantum codes: Researchers develop optimal error correction algorithm
Scientists have developed an exact approach to a key quantum error correction problem once believed to be unsolvable, and have shown that what appeared to be hardware-related errors may in fact be due to suboptimal decoding.
Phys.org / Escaping cosmic strings: How dark photons could finally work as dark matter
Researchers, in a recent Physical Review Letters paper, introduce a new mechanism that may finally allow ultralight dark photons to be considered serious candidates for dark matter, with promising implications for detection ...
Phys.org / Olfactory neurons use unexpected 'solid' clusters to achieve genetic precision
A new study published in Nature reveals how olfactory sensory neurons (OSNs) achieve extraordinary precision in selecting which genes to express.
Phys.org / From infinite past to future: Simulation tracks complete journey of gravitational wave through black hole spacetime
In a new Physical Review Letters study, researchers have successfully followed a gravitational wave's complete journey from the infinite past to the infinite future as it encounters a black hole.
Phys.org / Origami structures unfold into seamless surfaces for deployable applications
A study published in Nature Communications presents a way to create deployable structures that transform from compact folded states into expansive configurations with perfectly smooth surfaces.
Phys.org / Researchers establish fundamental limit on how light bosonic dark matter can be
In a new study published in Physical Review Letters, scientists have estimated a new lower bound on the mass of ultra-lightweight bosonic dark matter particles.
Tech Xplore / Ferroelectric RAM performs calculations within memory
In a new Nature Communications study, researchers have developed an in-memory ferroelectric differentiator capable of performing calculations directly in the memory without requiring a separate processor.
Phys.org / Scientists improve gravitational wave identification with machine learning
A study published in Physical Review Letters outlines a new approach for extracting information from binary systems by looking at the entire posterior distribution instead of making decisions based on individual parameters.
Phys.org / Scientists find evidence of universal conformal invariance in diverse cellular movement
In a new Nature Physics study, researchers have provided evidence of universal conformal invariance in living biological cells. They show that a universal feature in the collective behavior emerges in groups of living cells.
Phys.org / Energy densities offer new path to resolving the Hubble tension
Researchers from the University of Waterloo have proposed a new method to measure the Hubble constant that could help resolve one of modern cosmology's pressing puzzles: the Hubble tension.
Phys.org / Scientists develop method to speed up quantum measurements using space-time trade-off
In an attempt to speed up quantum measurements, a new Physical Review Letters study proposes a space-time trade-off scheme that could be highly beneficial for quantum computing applications.
Phys.org / Scientists measure the spin-parity of charm baryons for the first time
In a new development at CERN, researchers at the LHCb collaboration have determined the spin-parity of singly heavy charm baryons for the first time, addressing a long-standing mystery in baryon research.