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phononic

Phononic is an adjective relating to phonons, the quantized vibrational excitations of a crystal lattice. In science and engineering, the term denotes the study, design, and manipulation of phonons to control mechanical energy, heat flow, and acoustic signals at nanoscale. Phononics sits at the intersection of solid-state physics, materials science, and acoustics and is to phonons what photonics is to photons or what electronics is to electrons.

A central focus is on controlling phonon transport, dispersion, and scattering. Phononic crystals are artificial, periodically

Methods commonly employed include nanoscale fabrication of periodic structures in silicon, ceramics, or polymers; and characterization

Looking ahead, phononics aims to integrate controllable phonon transport with electronics and photonics to enable on-chip

structured
materials
that
alter
phonon
propagation,
often
producing
band
gaps
in
which
certain
vibrational
frequencies
cannot
travel.
Related
concepts
include
acoustic
metamaterials,
phonon
waveguides,
and
broader
phonon
engineering
used
to
tailor
thermal
conductivity
and
heat
flow.
Applications
range
from
thermal
management
in
microelectronic
devices
to
enhancing
thermoelectric
efficiency,
as
well
as
exploratory
devices
such
as
thermal
diodes,
phononic
transistors,
or
phonon-based
signal
processing.
techniques
such
as
Brillouin
or
Raman
spectroscopy,
inelastic
neutron
scattering,
and
time-domain
thermoreflectance.
The
field
draws
on
lattice
dynamics,
nanofabrication,
and
advanced
imaging
to
understand
and
harness
phonon
behavior
at
cryogenic
to
room
temperatures.
thermal
routing,
improved
energy
conversion,
and
new
forms
of
information
processing
based
on
vibrational
energy.