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DS

dS is a symbol that can denote different concepts in science, depending on the context. In thermodynamics and statistical mechanics, dS represents an infinitesimal change in entropy, a state function. For a reversible process, the differential of entropy satisfies dS = δQ_rev / T, where δQ_rev is the reversible heat transfer and T is the temperature. Entropy S is associated with the number of accessible microstates and the degree of disorder of a system; it tends to increase in spontaneous processes in accordance with the second law of thermodynamics. Because S is a state function, dS depends only on the initial and final states, not on the path taken between them.

In physics and cosmology, dS commonly refers to de Sitter space, a maximally symmetric solution of Einstein’s

field
equations
with
a
positive
cosmological
constant
Λ.
The
four-dimensional
de
Sitter
space,
dS4,
can
be
described
as
a
hyperboloid
embedded
in
five-dimensional
Minkowski
space,
or
in
various
coordinate
patches
such
as
static
or
flat-slicing
forms.
The
de
Sitter
radius
l
is
related
to
the
cosmological
constant
by
Λ
=
3
/
l^2,
and
the
spacetime
has
curvature
characterized
by
R
=
12
/
l^2.
It
features
a
cosmological
horizon
with
a
Gibbons–Hawking
temperature
T
=
1
/
(2π
l)
and
an
associated
horizon
entropy
S_h
=
π
l^2
/
G
in
Planck
units.
De
Sitter
space
is
a
common
model
in
early-universe
inflationary
theory
and
in
discussions
of
dark-energy-driven
expansion;
it
also
appears
in
holographic
contexts
such
as
the
proposed
dS/CFT
correspondence,
though
these
ideas
are
less
established
than
AdS/CFT.