Home

EV

An electronvolt (eV) is a unit of energy commonly used in physics to express energies at the atomic scale. It is defined as the amount of work needed to move a single elementary charge, e, through an electric potential difference of one volt in vacuum. Since e is exactly 1.602176634×10^-19 coulombs, 1 eV equals 1.602176634×10^-19 joules.

Because of its convenience for subatomic phenomena, energies are often expressed in eV and its multiples: meV,

In photonics and quantum physics, E = hc/λ applies to photons, giving λ(nm) ≈ 1240 / E(eV). Thus a

Characteristically, 1 eV corresponds to an energy scale of about 1.16×10^4 kelvin via k_B, since 1 eV

Applications include electronic band gaps in semiconductors, ionization energies, binding energies in atoms, and particle energies

eV,
keV,
MeV,
GeV,
TeV.
1
eV
photon
has
a
wavelength
about
1240
nm,
while
a
2
eV
photon
is
about
620
nm.
≈
11604.5
K.
The
electronvolt
is
not
an
SI
base
unit,
but
a
commonly
used
non-SI
unit
of
energy;
the
SI
unit
is
the
joule.
in
accelerators
and
astrophysics.
In
particle
physics,
masses
are
frequently
stated
in
eV/c^2
(or
GeV/c^2).