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gravitationsdrift

Gravitationsdrift, or gravitational drift, is a drift motion of charged particles in a magnetized plasma produced by a constant external gravitational force. For a particle of mass m and charge q in a magnetic field B and a gravitational acceleration g, the drift velocity is v_g = (m g × B) / (q B^2). This expression describes the average, steady motion of the guiding center of the particle, neglecting collisions and other forces.

The drift is perpendicular to both gravity and the magnetic field; its magnitude depends on the particle’s

Gravitational drift has applications in space and astrophysical plasmas, including ionospheres, accretion disks, and dusty plasmas,

mass-to-charge
ratio
and
on
the
orientation
of
g
relative
to
B.
When
gravity
is
perpendicular
to
B,
the
magnitude
simplifies
to
|v_g|
=
m
g
/(q
B).
Electrons
and
ions
experience
opposite
drifts
due
to
their
opposite
charges,
and
heavier
species
(larger
m/q)
drift
more
strongly
for
a
given
B
and
g.
In
practice,
gravitational
drift
is
often
small
for
light
electrons
in
typical
laboratory
or
planetary
magnetic
fields
but
can
become
relevant
for
heavy
ions
or
charged
dust.
where
gravity
can
contribute
to
vertical
stratification
and
subtle
charge
separation.
However,
in
many
environments
it
is
subdominant
compared
with
other
drifts
such
as
E×B,
grad-B,
or
curvature
drifts,
and
with
pressure-gradient
effects.
Realistic
plasmas
may
require
considering
nonuniform
fields,
collisions,
and
additional
forces
that
modify
or
compete
with
the
simple
drift
formula.