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hydrogendeuterium

Hydrogendeuterium, commonly referred to as HD, is the diatomic isotopologue of molecular hydrogen that consists of one hydrogen atom and one deuterium atom. It is the simplest heteronuclear member of the hydrogen family and differs from H2 primarily because the two atoms have different masses.

HD has a small permanent dipole moment due to the mass asymmetry, which allows dipole-allowed rotational and

Formation and occurrence: HD forms in environments where hydrogen and deuterium exchange or react, such as

Applications and significance: In spectroscopy and astrochemistry, HD serves as a valuable isotopologue for studying isotopic

vibrational
transitions.
This
gives
HD
a
distinct
infrared
spectrum
and
means
it
can
participate
in
radiative
cooling
in
certain
environments
where
H2
is
less
effective.
The
bond
characteristics
of
HD
are
similar
to
those
of
H2,
but
the
energy
levels
and
spectral
lines
shift
because
of
the
increased
reduced
mass
of
the
molecule,
leading
to
different
rovibrational
transitions.
interstellar
gas,
planetary
atmospheres,
and
laboratory
plasmas.
It
can
be
produced
by
reactions
that
combine
H2
with
a
deuterium
atom
or
ion,
and
exchange
reactions
can
convert
other
hydrogen-bearing
species
to
HD.
In
astrophysical
contexts,
HD
is
used
as
a
tracer
for
deuterium
chemistry
and
as
a
coolant
in
certain
temperature
regimes.
fractionation,
chemical
reaction
pathways,
and
the
thermal
history
of
astronomical
environments.
Its
presence
provides
information
about
deuterium
abundance
and
the
physical
conditions
that
influence
molecular
formation
and
energy
transfer
in
space
and
in
laboratory
settings.