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magnetotails

A magnetotail is the elongated extension of a planet's magnetosphere on the nightside, formed as the solar wind drags and stretches the planetary magnetic field lines. In Earth's case, the magnetotail reaches many tens to hundreds of Earth radii into space, varying with solar wind pressure and activity.

Structure of the magnetotail consists of two opposing magnetic-field lobes separated by a thinner central plasma

Dynamics and processes in the magnetotail include magnetic reconnection, which dissipates stored magnetic energy and can

Occurrence and study: Earth’s magnetotail is the best studied, but most magnetized planets in the Solar System—including

Overall, the magnetotail is a key feature of magnetized planetary environments, linking solar wind forcing to

sheet.
The
lobes
contain
relatively
low-density
plasma
with
fields
pointing
in
opposite
directions,
while
the
plasma
sheet
hosts
hotter,
denser
plasma
and
carries
the
cross-tail
current
that
helps
balance
forces
in
the
tail.
The
tail
may
also
contain
magnetic
flux
ropes
and
plasmoids
formed
by
dynamic
reconnection
processes.
trigger
substorms
and
power
auroras.
Reconnection
can
produce
fast
plasma
flows,
eject
plasmoids
tailward,
and
create
dipolarization
fronts
that
propagate
through
the
tail.
The
ongoing
interaction
with
the
solar
wind
keeps
the
tail
in
a
constantly
evolving
state.
Mercury,
Jupiter,
Saturn,
Uranus,
and
Neptune—also
possess
magnetotails,
whose
size
and
behavior
depend
on
their
magnetic
fields
and
solar
wind
conditions.
Observations
from
spacecraft
(such
as
THEMIS
and
Cluster)
and
theoretical
magnetohydrodynamic
models
are
used
to
investigate
the
tail’s
structure,
dynamics,
and
role
in
space
weather.
magnetospheric
storage
and
release
of
energy.