Discover the cosmos! Each day a different image or photograph of our fascinating universe is featured, along with a brief explanation written by a professional astronomer.
Explanation:
Neutrinos,
along with
things like electrons and quarks, are fundamental pieces of
matter according to
physicists' Standard Model.
But neutrinos are hard to detect.
Readily produced
in nuclear reactions and
particle collisions, they can easily pass completely through planet
Earth without once interacting with any other particle.
Constructed in an unused mine in Japan,
an ambitious large-scale experiment
designed to detect and study neutrinos is known
as Super-Kamiokande or "Super-K".
Only(!) 500 days worth of data was needed to produce
this "neutrino image" of the Sun,
using Super-K
to detect the neutrinos from nuclear fusion
in the solar interior.
Centered on the Sun's postion, the picture covers a significant
fraction of the sky (90x90 degrees in R.A. and Dec.).
Brighter colors represent a larger flux of neutrinos.
News:
In a tantalizing
recent announcement, an
international collaboration of
Super-K researchers has
now presented evidence that the ghostly neutrinos
undergo quantum mechanical oscillations,
changing their particle identities and quantum properties over time.
Theorists have considered neutrinos to be massless particles
but these oscillations would imply that they
have a very small (but nonzero) mass.
Astrophysicists are
taking note because even
a small mass for ubiquitous, nearly undetectable neutrinos would
make them accountable for a substantial fraction of the
total mass of our Universe, influencing and perhaps determining
its ultimate fate!
A measurable mass for neutrinos would also make them candidates
for the
mysterious dark matter known
to affect the motions of stars and galaxies,
while proof of neutrino oscillations would be a step toward
resolving the decades old
Solar Neutrino Problem.
Even skeptical scientists will be waiting impatiently
to see if these results are independently confirmed.
Authors & editors:
Robert Nemiroff
(MTU) &
Jerry
Bonnell (USRA)
NASA Technical Rep.:
Jay Norris.
Specific rights apply.
A service of:
LHEA
at
NASA/
GSFC
&:
Michigan Tech. U.