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ultranarrowband

Ultranarrowband refers to signals, filters, or systems characterized by an extremely small spectral bandwidth relative to their center frequency. The term is used across radio-frequency communications, optics, and spectroscopy to denote high spectral selectivity. In RF contexts, ultranarrowband channels may occupy only tens to hundreds of hertz in bandwidth; in optics, ultranarrowband filters or lasers can have sub-megahertz or sub-kilohertz linewidths. Such systems typically rely on high-quality factors (Q), precise frequency references, and stable environmental conditions.

In wireless communications, ultranarrowband modulation aims to maximize spectral efficiency and sensitivity over long ranges or

In optics and spectroscopy, ultranarrowband filtering allows discrimination between closely spaced wavelengths, enabling high-resolution spectroscopy, laser

The term is also used descriptively to compare systems: ultranarrowband devices are highly selective but less

in
noisy
environments
by
confining
energy
to
very
narrow
frequency
slots.
This
enables
robust
communication
under
high
path
loss
and
spectrum
sharing,
but
imposes
stringent
requirements
for
oscillator
stability,
Doppler
compensation,
and
tight
channel
locking.
Implementations
often
use
digital
signal
processing
to
cope
with
narrow
channels
and
timing
drift.
stabilization,
and
quantum
optics
experiments.
Technologies
include
high-Q
Fabry-Pérot
cavities,
etalons,
dielectric
multilayer
filters,
and
microresonators,
frequently
requiring
temperature
stabilization
and
mechanical
isolation.
tolerant
of
frequency
shifts,
whereas
broader-band
systems
trade
selectivity
for
flexibility
and
drift
tolerance.
Practical
realization
depends
on
component
quality,
environmental
control,
and
the
specific
application
requirements.