Emitted as well are visible light and neutrinos, opening up the possibility ... "Current efforts around the world for the detection of core-collapse supernova gravitational waves are substantial ...

As massive stars reach their fiery demise, collapsing in on themselves before exploding as supernovae, they emit a fleeting burst of neutrinos before the dazzling light show begins. In this talk ...

Observations of VFTS 243 provide evidence that black holes can form directly from the collapse of massive stars, without a ...

Nearly all the energy released in a core-collapse supernova is carried away by neutrinos. The outward flow of neutrinos energizes the neutron-rich matter in the supernova. This increases the ...

Neutrinos are elusive subatomic particles that are produced in large numbers in places such as the cores of stars, core-collapse supernovae, and the Big Bang. Professor Marino's research has focussed ...

Detecting neutrinos from a core-collapse supernova in our Galaxy is easy (60000 neutrinos arriving in a ten-second window would be hard to miss), but relies on cooperation from the Galactic population ...

According to the team, the solutions to the toughest challenges to the core collapse mechanism of the huge supernovae come from the tiniest subatomic particles called neutrinos. "During the core ...