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dendriter

Dendriter is a term used to describe tree-like, branched structures that occur in several contexts, most notably in neuroscience as the dendrites of neurons and in materials science as dendritic crystal formations during solidification.

In neuroscience, dendriter refers to the dendrites: slender, elongated processes that extend from the neuronal cell

In materials science, dendritic growth refers to tree-like crystal formations that arise during the solidification of

Dendritic patterns also appear in ice crystals and polymer crystallization, reflecting a common diffusion-driven growth mechanism.

body
and
receive
synaptic
inputs.
They
form
a
dendritic
arbor
with
varying
branching
patterns
and
surface
area,
and
they
host
a
high
diversity
of
receptors
and
ion
channels
that
shape
signal
integration.
Dendrites
transmit
signals
to
the
soma
and
can
support
local
electrical
events,
including
backpropagating
action
potentials
and
dendritic
spikes
in
some
neurons.
Dendritic
spines,
small
protrusions
on
many
dendrites,
provide
postsynaptic
sites
for
most
excitatory
synapses.
Dendritic
structure
is
highly
dynamic,
changing
with
development,
learning,
and
experience,
a
property
known
as
dendritic
plasticity.
many
metals
and
alloys.
Dendrites
originate
from
a
seed
crystal
and
grow
along
preferred
crystallographic
directions,
creating
primary
arms
with
finer
secondary
branches.
The
spacing
and
morphology
of
dendrites
depend
on
cooling
rate,
temperature
gradient,
and
alloy
composition.
Dendritic
microstructures
influence
mechanical
properties,
including
strength,
toughness,
and
anisotropy,
as
well
as
porosity
and
solute
distribution.
Process
control
during
casting
and
solidification
aims
to
manage
dendrite
size
and
spacing
to
achieve
desired
material
performance.