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oscillatorns

Oscillatorns is a term used in speculative discussions to denote a family of oscillatory devices or models distinguished by nonlinear feedback and adjustable coupling. It is not a standard term in physics or engineering, but is sometimes invoked to illustrate synchronization phenomena in networks of oscillators.

In theoretical treatments, an oscillatorn is described by nonlinear differential equations for a state vector x_i

Key features include a tunable natural frequency, nonlinear amplitude saturation, and the possibility of phase or

Realizations are often discussed in abstract terms but may correspond to electronic phase-locked loops with nonlinear

Applications are primarily in thought experiments about clock distribution in distributed systems and modelling rhythmic activity

Related topics include oscillators, nonlinear dynamics, synchronization, coupled oscillators, phase locking, and chimera states.

of
unit
i,
with
intrinsic
dynamics
f(x_i;
p)
and
a
coupling
term
with
neighbors,
sum_j
C_ij
h(x_i,
x_j;
q).
The
collective
dynamics
can
yield
stable
limit
cycles,
quasi-periodic,
or
chaotic
regimes
depending
on
parameters.
frequency
locking
under
coupling.
Networks
of
oscillatorns
can
exhibit
cluster
synchronization,
chimera-like
states,
or
intermittent
entrainment.
elements,
optical
resonators
with
Kerr
nonlinearity,
or
neuromorphic
circuits
that
imitate
neuronal
oscillations.
In
simulations,
oscillatorns
serve
as
a
generic
model
for
how
local
oscillators
coordinate.
in
biological
networks.
The
term
appears
chiefly
in
speculative
literature
rather
than
standard
references.