Scientists investigate the synergy of entanglement and curved spacetime in advancing quantum radar technology for precise distance measurement.
Muons help explore physics beyond the Standard Model
Enhanced experimental precision has the potential to either confirm or dispel uncertainties surrounding the Standard Model of Physics.
Radio emissions reveal unprecedented oscillations in black hole radiation
Previously unobserved frequency changes in radio signals detected in a black hole binary system could change our understanding of black hole physics.
Understanding gravitational waves: Ripples in spacetime explained
The universe is ringing with gravity, but humanity is only just beginning to hear the nuance of this cosmic symphony.
Could axions be the missing piece in the dark matter puzzle?
Using the galactic glow of dwarf galaxies, researchers investigate a hypothetical particle called an axion as a possible contender for dark matter.
Time ran slowly in the early Universe, just as Einstein predicted
Using quasars as ticking cosmic clocks, scientists took a journey back in time, discovering time progressed five times slower just after the Big Bang.
Pulsars and giant black holes open new doors in cosmic archaeology
A 15-year study using observed radio signals from the 67 pulsars has concluded that the entire cosmos is filled with undulating gravitational waves.
Are dark photons alternatives to dark matter?
Researchers investigate dark photons as alternatives to dark matter, aiming to detect these particles through experiments involving the conversion of light.
How bioinks could help astronauts survive long space missions
Scientists are exploring how to store and transport ready-to-use bioink cartridges to treat injuries on the International Space Station.
Galactic clusters may be key to testing competing theories of dark matter and dark energy
Scientists propose a modified cosmological model that challenges the existence of dark matter and dark energy.