Home

Secondharmonic

Second harmonic refers to a frequency component at twice the fundamental frequency. In signal processing and physics, the term is used in two related contexts: general nonlinear response of a system to a periodic drive, and a specific nonlinear optical process known as second harmonic generation.

In nonlinear optics, second harmonic generation (SHG) arises when an electromagnetic wave propagates through a noncentrosymmetric

Phase matching can be achieved by birefringent phase matching or quasi-phase matching using periodically poled crystals

Second harmonic phenomena also appear in electronics and acoustics as nonlinear distortion, where a circuit or

medium
whose
polarization
responds
nonlinearly
to
the
electric
field.
The
second-order
polarization
term
P(2)(t)
∝
χ(2)
E(t)E(t)
produces
radiation
at
twice
the
input
frequency
(2ω).
The
efficiency
of
SHG
depends
on
the
nonlinear
susceptibility
χ(2),
the
intensity
of
the
fundamental,
and
the
phase-matching
condition,
which
ensures
constructive
interference
of
the
generated
2ω
waves
along
the
propagation
direction.
In
bulk
centrosymmetric
materials,
χ(2)
vanishes,
so
SHG
is
weak
or
forbidden;
it
can
occur
at
surfaces
or
interfaces
where
symmetry
is
broken,
or
in
noncentrosymmetric
crystals.
(for
example,
PPLN,
PPKTP).
Common
SHG
materials
include
BBO,
LBO,
KDP,
and
lithium
niobate.
A
typical
application
is
frequency
doubling
of
infrared
lasers,
such
as
converting
1064
nm
light
to
532
nm
green
light
in
Nd:YAG
laser
systems.
medium
generates
a
2f
component
from
a
fundamental
signal;
such
harmonics
are
often
filtered
and
suppressed
in
precision
systems.
SHG
remains
a
valuable
tool
for
spectroscopy
and
microscopy,
providing
surface
sensitivity
and
insights
into
material
symmetry.