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ultrafroids

Ultrafroids are a class of hypothetical subatomic objects proposed in speculative theories beyond the Standard Model. In these models, ultrafroids are ultra-dense, ultra-compact bound states formed by novel fermionic constituents bound by a proposed ultraforce. The term appears in toy models and discussions of dark-sector physics as a potential component of the cosmic matter inventory.

Predicted properties include extreme mass relative to ordinary baryons, a very small spatial extent, and stability

Ultrafroids are speculative and not part of established theory. They may arise in models with a new

There is no experimental evidence for ultrafroids. Searches in collider data and astrophysical observations look for

If real, ultrafroids would have implications for particle physics, cosmology, and the study of dark matter,

due
to
a
conserved
quantum
number
or
robust
binding
energy.
They
are
expected
to
interact
only
weakly
with
Standard
Model
particles,
making
them
effectively
invisible
to
many
detectors.
Some
formulations
allow
neutral
charge
states;
others
permit
small
effective
charges
through
mixing
with
known
gauge
fields.
confining
gauge
interaction
in
a
dark
sector,
yielding
dense
bound
states
in
the
early
universe
or
in
high-energy
environments.
Lifetimes
can
range
from
quasi-stable
to
cosmologically
long,
depending
on
the
underlying
conservation
laws.
anomalous
penetrating
particles,
missing-energy
events,
or
effects
of
compact
dark-sector
objects.
Confirmation
would
require
reproducible
signals
across
independent
experiments
and
a
consistent
theoretical
framework.
potentially
informing
ideas
about
confinement,
mass
generation,
and
the
diversity
of
matter
in
the
universe.