The concept of heavy dark matter has raised concerns about its implications for the universe’s fundamental structure. While dark matter has been theorised as a key component explaining several astrophysical phenomena, new research indicates that particles exceeding a certain mass could disrupt the Standard Model of particle physics. The ongoing quest to identify dark matter, … Read more
The universe is thought to be teeming with invisible entities called boson stars, formed from an exotic material that neither shines nor emits detectable radiation. These celestial objects might hold the key to the enigma of dark matterwhich accounts for approximately a quarter of the cosmos’s mass-energy content. While theoretical models propose that dark matter … Read more
Efforts to explain the universe’s anomalies continue to focus on dark mattera mysterious form of matter believed to account for most of the universe’s mass. This invisible entity influences galaxy movements and cosmic structures far more than visible matter. While researchers have long explored potential mass ranges for dark matter, a new study reveals that … Read more
A compact neutrino detector has successfully identified antineutrinos at a nuclear power plantmarking a significant advancement in particle physics. Unlike conventional detectors that require massive infrastructure, this device weighs less than three kilograms. Despite its size, it effectively detected antineutrinos emitted from a nuclear reactor in Leibstadt, Switzerland. The experiment, which lasted 119 days, involved … Read more
A key difference has been observed in the behaviour of matter and antimatter particles by researchers working at a particle physics laboratory. A new measurement has been carried out that recorded the decay of a specific type of matter particle and its antimatter equivalent. This development is being seen as significant because it may explain … Read more
A key difference has been observed in the behaviour of matter and antimatter particles by researchers working at a particle physics laboratory. A new measurement has been carried out that recorded the decay of a specific type of matter particle and its antimatter equivalent. This development is being seen as significant because it may explain … Read more
A key difference has been observed in the behaviour of matter and antimatter particles by researchers working at a particle physics laboratory. A new measurement has been carried out that recorded the decay of a specific type of matter particle and its antimatter equivalent. This development is being seen as significant because it may explain … Read more
A neutrino with an energy level never observed before has been detected in the depths of the Mediterranean Sea. The subatomic particlemeasuring an estimated 220 quadrillion electron volts, was recorded by a detector within the Cubic Kilometre Neutrino Telescope (KM3NeT). This discovery marks a significant milestone, as it surpasses previous neutrino detections by nearly 100 … Read more
The latest phase of the AMoRE (Advanced Mo-based Rare Process Experiment) project has yielded significant findings in the search for neutrinoless double beta decay, a process that could redefine understanding of fundamental particle physics. Conducted at the Yangyang Underground Laboratory in Korea, the study involved the use of molybdate scintillating crystals at extremely low temperatures … Read more
The latest phase of the AMoRE (Advanced Mo-based Rare Process Experiment) project has yielded significant findings in the search for neutrinoless double beta decay, a process that could redefine understanding of fundamental particle physics. Conducted at the Yangyang Underground Laboratory in Korea, the study involved the use of molybdate scintillating crystals at extremely low temperatures … Read more