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mainlobe

Mainlobe refers to the region of an antenna’s radiation pattern that contains the maximum radiated power or gain. It is the dominant lobe of the pattern and is distinct from sidelobes and the backlobe, which contain less energy. The mainlobe points in the direction of greatest radiation, and its centerline defines the beam direction.

The angular width of the mainlobe is described by the beamwidth, commonly defined as the angular separation

In practice, the shape and direction of the mainlobe are determined by the antenna’s aperture distribution

The backlobe lies opposite the mainlobe and contains radiation toward the rear, while sidelobes are secondary

between
points
where
the
radiated
power
falls
to
half
its
peak
value,
i.e.,
the
-3
decibel
points.
The
peak
of
the
pattern
corresponds
to
the
maximum
gain,
measured
in
a
reference
such
as
dBi.
or
the
arrangement
and
excitation
of
its
elements.
In
array
antennas,
the
mainlobe
can
be
steered
by
adjusting
element
phases
and
amplitudes,
enabling
beam
scanning
without
moving
the
structure.
Signal
performance
is
often
optimized
by
reducing
sidelobes
relative
to
the
mainlobe
to
minimize
interference
and
undesired
reception.
maxima
at
other
angles.
Although
named
for
its
dominance,
the
mainlobe
can
be
accompanied
by
multiple
sidelobes
of
varying
amplitude,
depending
on
the
design
and
operating
frequency.
The
concept
is
used
across
radio,
radar,
and
acoustics
to
describe
the
primary
direction
of
energy
and
its
angular
extent.