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Project 8

All articles tagged with #project 8

science2 years ago•4 min saved

"Project 8 Reveals Groundbreaking Discovery: Unmasking the Secrets of Ghost Particles and Neutrino Mass"

Project 8, an international collaboration, has made a breakthrough in measuring the mass of neutrinos, elusive elementary particles that play a significant role in the early universe. Using Cyclotron Radiation Emission Spectroscopy (CRES), the researchers observed electron behavior in tritium decay to set an upper limit for neutrino mass. This novel approach, which measures the energy of resulting electrons, shows promise in advancing our understanding of the universe's evolution. The next steps involve scaling up the experiment and creating a source for individual tritium atoms to surpass the sensitivity of previous experiments and provide a definitive value for neutrino mass.

via SciTechDaily|

#cyclotron-radiation-emission-spectroscopy #neutrino #particle-physics

science-and-technology2 years ago•7 min saved

Cracking the Neutrino Code: Project 8 Nears the Truth

Researchers from Project 8 are using Cyclotron Radiation Emission Spectroscopy (CRES) to track and record beta decay events in their quest to measure the elusive neutrino's mass. By measuring the energy of the electrons generated during beta decay, the researchers can determine the missing energy, which corresponds to the neutrino's mass. Project 8's innovative approach, which relies on scaling up the CRES technique, has the potential to provide valuable insights into the role of neutrinos in the early evolution of the universe.

via SciTechDaily|

#cyclotron-radiation-emission-spectroscopy #mass-measurement #neutrino

science2 years ago•7 min saved

Cracking the Neutrino Mystery: Advancements in Physics Research

An international team of researchers from the United States and Germany, known as Project 8, is using a new technique called Cyclotron Radiation Emission Spectroscopy (CRES) to track and record beta decay events and measure the mass of the elusive neutrino. By measuring the energy of the electrons generated in beta decay, the researchers can determine the missing energy, which corresponds to the mass and motion of the neutrino. The success of Project 8 relies on scaling up the experiment and developing a system to produce, cool, and trap individual atoms of tritium, a radioactive variant of hydrogen. This innovative approach could provide valuable insights into the early evolution of the universe.

via Phys.org|

#beta-decay #neutrino #particle-physics