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He2

he2 refers to the diatomic molecule formed by two helium atoms. In its ground electronic state, it is a weakly bound van der Waals dimer bound by dispersion forces. The binding energy is extremely small—on the order of 0.1 cm^-1—making it one of the weakest chemically bound molecules. The equilibrium internuclear distance is relatively large, about 5.0–5.6 Å, reflecting its loose van der Waals character. Because of the shallow potential well, only a very small number of vibrational levels exist, typically one or two.

Formation and observation occur under cryogenic conditions or in specialized experimental settings such as supersonic jet

Metastable states, such as He2* in excited electronic configurations, form under different irradiation and collision conditions

Significance: he2 serves as a benchmark system for testing theories of weak van der Waals interactions and

expansions
and
helium
nanodroplets,
where
the
gas
is
cooled
to
near
absolute
zero.
He2
has
been
detected
through
spectroscopic
methods,
including
photoassociation
and
vibration–rotation
spectroscopy,
which
probe
its
weak
energy
levels
and
the
shape
of
its
potential
energy
surface.
Computational
studies
using
high-level
quantum
chemistry
methods
have
been
essential
for
describing
the
delicate
balance
of
forces
that
stabilize
the
molecule,
and
they
agree
on
the
exceptional
weakness
of
the
bond
and
the
resulting
large
bond
length.
and
often
exhibit
a
deeper
potential
well,
enabling
broader
spectroscopic
investigation.
These
excited-state
dimers
have
played
a
significant
role
in
experiments
on
Penning
ionization
and
ultracold
chemistry.
the
quantum
behavior
of
noble-gas
dimers,
contributing
to
understanding
intermolecular
forces
and
ultra-cold
molecular
physics.