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Mysterious particles spewing from Antarctica defy physics

   By [31]Rafi Letzter 2020-01-26T19:05:58Z

   What's making these things fly out of the frozen continent?
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   Researchers prepare to launch the Antarctic Impulsive Transient Antenna
   (ANITA) experiment, which picked up signals of impossible-seeming
   particles as it dangled from its balloon over Antarctica.
   Researchers prepare to launch the Antarctic Impulsive Transient Antenna
   (ANITA) experiment, which picked up signals of impossible-seeming
   particles as it dangled from its balloon over Antarctica.
   (Image: © NASA)

   Our best model of particle physics is bursting at the seams as it
   struggles to contain all the weirdness in the universe. Now, it seems
   more likely than ever that it might pop, thanks to a series of strange
   events in Antarctica. .

   The death of this reigning physics paradigm, the Standard Model, has
   been predicted for decades. There are hints of its problems in the
   physics we already have. Strange results from laboratory experiments
   suggest flickers of [32]ghostly new species of neutrinos beyond the
   three described in the Standard Model. And the universe seems [33]full
   of dark matter that no particle in the Standard Model can explain.

   But recent tantalizing evidence might one day tie those vague strands
   of data together: Three times since 2016, ultra-high-energy particles
   have blasted up through the ice of Antarctica, setting off detectors in
   the Antarctic Impulsive Transient Antenna (ANITA) experiment, a machine
   dangling from a NASA balloon far above the frozen surface.

   Related:[34] The 18 Biggest Unsolved Mysteries in Physics

   As Live Science [35]reported in 2018, those events — along with several
   additional particles detected later at the buried Antarctic neutrino
   observatory IceCube — don't match the expected behavior of any
   [36]Standard Model particles. The particles look like ultra high-energy
   [37]neutrinos. But ultra high-energy neutrinos shouldn't be able to
   pass through the Earth. That suggests that some other kind of particle
   — one that's never been seen before — is flinging itself into the cold
   southern sky.

   Now, in a new paper, a team of physicists working on IceCube have cast
   heavy doubt on one of the last remaining Standard Model explanations
   for these particles: cosmic accelerators, giant neutrino guns hiding in
   space that would periodically fire intense neutrino bullets at Earth. A
   collection of hyperactive neutrino guns somewhere in our northern sky
   could have blasted enough neutrinos into Earth that we'd detect
   particles shooting out of the southern tip of our planet. But the
   IceCube researchers didn't find any evidence of that collection out
   there, which suggests new physics must be needed to explain the
   mysterious particles.

   To understand why, it's important to know why these mystery particles
   are so unsettling for the Standard Model.

   Neutrinos are the faintest particles we know about; they're difficult
   to detect and nearly massless. They pass through our planet all the
   time — mostly coming from the sun and rarely, if ever, colliding with
   the protons, neutrons and electrons that make up our bodies and the
   dirt beneath our feet.

   But ultra-high-energy neutrinos from deep space are different from
   [38]their low-energy cousins. Much rarer than low-energy neutrinos,
   they have wider "cross sections," meaning they're more likely to
   collide with other particles as they pass through them. The odds of an
   ultra-high-energy neutrino making it all the way through Earth intact
   are so low that you'd never expect to detect it happening. That's why
   the ANITA detections were so surprising: It was as if the instrument
   had won the lottery twice, and then IceCube had won it a couple more
   times as soon as it started buying tickets.

   And physicists know how many lottery tickets they had to work with.
   Many ultra-high-energy cosmic neutrinos come from the interactions of
   cosmic rays with the cosmic microwave background (CMB), the faint
   afterglow of the Big Bang. Every once in a while, those cosmic rays
   interact with the CMB in just the right way to fire high-energy
   particles at Earth. This is called the "flux," and it's the same all
   over the sky. Both ANITA and IceCube have already measured what the
   cosmic neutrino flux looks like to each of their sensors, and it just
   doesn't produce enough high-energy neutrinos that you'd expect to
   detect a neutrino flying out of Earth at either detector even once.

   "If the events detected by ANITA belong to this diffuse neutrino
   component, ANITA should have measured many other events at other
   elevation angles," said Anastasia Barbano, a University of Geneva
   physicist who works on IceCube.

   But in theory, there could have been  ultra-high-energy neutrino
   sources beyond the sky-wide flux, Barbano told Live Science: those
   neutrino guns, or cosmic accelerators.

   Related: [39]The 11 Biggest Unanswered Questions About Dark Matter

   "If it is not a matter of neutrinos produced by the interaction of
   ultra-high-energy cosmic rays with the CMB, then the observed events
   can be either neutrinos produced by individual cosmic accelerators in a
   given time interval" or some unknown Earthly source, Barbano said.

   Blazars, active galactic nuclei, gamma-ray bursts, starburst galaxies,
   galaxy mergers, and magnetized and fast-spinning neutron stars are all
   good candidates for those sorts of accelerators, she said. And we know
   that cosmic neutrino accelerators do exist in space;  in 2018, IceCube
   [40]tracked a high-energy neutrino back to a blazar, an intense jet of
   particles coming from an active black hole at the center of a distant
   galaxy.

   ANITA picks up only the most extreme high-energy neutrinos, Barbano
   said, and if the upward-flying particles were
   cosmic-accelerator-boosted neutrinos from the Standard Model — most
   likely tau neutrinos — then the beam should have come with a shower of
   lower-energy particles that would have tripped IceCube's lower-energy
   detectors.

   "We looked for events in seven years of IceCube data," Barbano said —
   events that matched the angle and length of the ANITA detections, which
   you'd expect to find if there were a significant battery of cosmic
   neutrino guns out there firing at Earth to produce these up-going
   particles. But none turned up.

   Their results don't completely eliminate the possibility of an
   accelerator source out there. But they do "severely constrain" the
   range of possibilities, eliminating all of the most plausible scenarios
   involving cosmic accelerators and many less-plausible ones.

   "The message we want to convey to the public is that a Standard Model
   astrophysical explanation does not work no matter how you slice it,"
   Barbano said.

   Researchers don't know what's next. Neither ANITA nor IceCube is an
   ideal detector for the needed follow-up searches, Barbano said, leaving
   the researchers with very little data on which to base their
   assumptions about these mysterious particles. It's a bit like trying to
   figure out the picture on a giant jigsaw puzzle from just a handful of
   pieces.

   Right now, many possibilities seem to fit the limited data, including a
   fourth species of "sterile" neutrino outside the Standard Model and a
   range of theorized types of dark matter. Any of these explanations
   would be revolutionary.hjh But none is strongly favored yet.

   "We have to wait for the next generation of neutrino detectors,"
   Barbano said.

   The paper has not yet been peer reviewed and was [41]published January
   8 in the arXiv database.
     * [42]From Big Bang to Present: Snapshots of Our Universe Through
       Time
     * [43]The 11 Biggest Unanswered Questions About Dark Matter
     * [44]5 Elusive Particles Beyond the Higgs

   Originally published on [45]Live Science.

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