3D contours of quantum coherence in a neutrino moment simulation. The simulation starts with random initial conditions and develops structure in less than a nanosecond. Credit: E. Grohs
Neutrinos have quantum mechanical properties called “flavors”. These flavors change as they travel through space. A major challenge is tracking both the physical journey and the change in flavor of neutrinos in astrophysical systems such as core-collapse supernovae and merging neutron stars. The complex arrangement and large number of neutrinos in these systems makes it nearly impossible to track all, or even some, of the neutrinos.
The researchers investigated a possible solution to this problem, an approach that extends the traditional methods for calculating the motion of neutrinos to quantum mechanical techniques. Flavor This approach reduces the complexity of calculating how things change. Neutrinos behave Complex Systems
This study Astrophysical Journal And that Letter B in Physics journal.
Supernovae and neutron star mergers begin with photons Gravitational wavesA wide variety of matter is flying around in space, from neutrinos to heavy elements. These matter can give scientists new insights into the physics of these stars. But to make use of these matter, scientists need to understand the physics of neutrinos, which carry a significant fraction of the energy in these systems.
Furthermore, scientists are understanding the interactions involving neutrinos, Heavy elements Neutrinos are produced by stellar explosions and stellar mergers. The angular momentum wraps up the total number and flux of neutrinos into a set of small equations of motion.
Scientists can use these equations to calculate the neutrino flavor change. Reducing the number of equations in the angular moment method paves the way for solving the neutrino flavor conversion problem in compact objects, such as merging neutron stars.
In this study, we explored the possibility of using an approach based on semi-classical angular moments to take into account the quantum mechanical effects of flavors in neutrino transport in neutron star merger remnants. The researchers tested the method on a type of neutrino flavor conversion called “fast flavors,” where neutrino angular information is known to be required for the conversion. They found that the method captures the growth of the conversion well, making the method worth further investigation.
For more information:
Evan Gross et al. “Two-moment neutrino flavor conversion and its application to fast flavor instabilities in neutron star mergers” Astrophysical Journal (2024). Posted on: 10.3847/1538-4357/ad13f2
Evan Gross et al., Three-dimensional neutrino fast flavor instability in neutron star mergers, Letter B in Physics (2023). DOI: 10.1016/j.physletb.2023.138210
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U.S. Department of Energy
Quote: What flavor is that neutrino? Adding flavor helps track neutrino movement in astrophysical systems (July 12, 2024) Retrieved July 12, 2024, from https://phys.org/news/2024-07-flavor-neutrino-adding-track-movement.html
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