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protontiluku

Protontiluku is a hypothetical subatomic particle proposed in the Protontiluku framework, a speculative extension of the Standard Model of particle physics. The name blends pro-ton with a suffix used for elementary quanta, reflecting its proposed role as a new baryon-related degree of freedom. The concept appears in theoretical discussions as a way to explore small discrepancies in baryon-number related processes and in the structure of nucleons.

In the framework, protontiluku is predicted to be a neutral fermion with spin 1/2 and a mass

Phenomenology of the protontiluku includes potential production in high-energy proton collisions or in nuclear reactions, with

Experimental status: Protontiluku remains hypothetical and has not been observed. Constraints are derived from collider searches,

See also: Baryon-number conservation, Dark sector physics, Hidden photons, Proton radius puzzle.

that
could
lie
in
the
tens
to
a
few
hundred
MeV/c^2,
depending
on
the
chosen
parameters.
It
carries
a
new
quantum
number,
denoted
T,
which
governs
its
coupling
to
baryons.
Its
interactions
with
Standard
Model
fields
are
assumed
to
be
weak
and
highly
suppressed,
typically
arising
from
a
Yukawa-like
coupling
to
nucleons
and,
in
some
variants,
via
mixing
with
gauge
bosons
in
a
dark
sector.
decays
into
final
states
that
may
include
nucleons
and
light
mesons
or
lepton
pairs.
Predicted
lifetimes
range
from
picoseconds
to
microseconds,
which
could
produce
displaced
signatures
in
particle
detectors.
In
addition,
the
presence
of
protontiluku
could
modify
short-range
baryon
forces,
with
possible
effects
on
precise
measurements
of
nuclear
binding
and
nucleon
form
factors.
fixed-target
experiments,
and
precision
nuclear
data,
which
limit
its
coupling
strength
and
mass.
Ongoing
programs
and
proposed
experiments
aim
to
search
for
missing-energy
signals,
displaced
vertices,
or
deviations
in
nucleon-nucleon
interactions
that
would
indicate
a
new
baryonic
mediator.