At finally, Scientists have found the source of those Mysterious subatomic particles, “The Ghost Particle” is coming from outside our galaxy. These article ghost particles haven’t any electrical charge neither mass. On 22 Sep 2017, Scientists had detected a ghost particle (high-energy) neutrino after travelled approx 4 billion light-years.
They are practically available everywhere and pass through almost everything. In every second, the 100 trillion ghost particle stream through your body.
Astronomers started wondering about neutrinos in the 1930s and by 1956, they affirmed their reality. from that point forward, we’ve pinpointed two hotspots or neutrinos –the Sun and Supernova 1984A. However, in 2013, Scientists found another kind of neutrino known as a Ghost-Particle, and nobody had been identified the capacity for those sources.
What are Neutrino, Cosmic rays and Blazars?
Neutrino is a subatomic particle that is very similar to an electron but has no electrical charge and a very small mass, which might even be zero.
Cosmic rays are energetic, subatomic particles that arrive from outside the Earth’s atmosphere. The lowest energy cosmic rays are produced by ordinary stars like the Sun. For example, during a solar flare, many particles are ejected from the Sun.
A blazar is a feeding super-massive black-hole (SMBH) in the heart of a distant galaxy that produces a high-energy jet viewed face-on from Earth.
A team effort:
On September 22, scientists declared that the IceCube Neutrino Observatory at the South Pole had distinguished a high-energy neutrino radiating from one region in space. Following that declaration, approximately 20 different observatories rapidly swung vigorously, setting their sights on the position recognized by the IceCube scientists.
Presently, the following quite a while of perception, those gatherings have aggregately decided the exact wellspring of the high-vitality neutrino: TXS 0506+056, a blazar situated around 4 billion light-years from Earth (a blazar is a sort of curved cosmic system with a quickly turning dark gap at its middle).