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cospin

Cospin is a term used in some theoretical and experimental works to describe a composite spin-like degree of freedom that emerges when two spin subsystems are coherently coupled. Unlike ordinary spin, which refers to the intrinsic angular momentum of a single particle, cospin refers to an effective two-level system that encodes the joint state of two coupled spins, a pseudospin, or a spin and an orbital or sublattice degree of freedom. In this sense, cospin can be framed as a two-state space with basis states that denote distinct configurations of the coupled system.

In many models, the cospin is described by Pauli matrices acting on the cospin space; the full

Experimental relevance arises in systems such as coupled quantum dots, bilayer or twisted materials where a

Status and usage vary by context. The term is primarily found in theory discussions and some experiments,

Hamiltonian
includes
exchange-like
coupling
between
the
spins,
a
Zeeman
term
for
external
magnetic
fields
acting
on
the
real
spins,
and
a
transverse
cospin
field
that
can
be
controlled
by
gates
or
fields.
External
control
can
manipulate
the
cospin
through
gate
voltages,
magnetic
fields,
or
electric
fields,
enabling
coherent
control
and
readout
via
spin-resolved
spectroscopy,
transport
measurements,
or
optical
assays.
layer,
valley,
or
orbital
index
acts
as
a
two-level
degree
of
freedom,
and
in
certain
qubit
architectures
where
spin
and
another
degree
of
freedom
are
deliberately
coupled
to
form
a
two-level
cospin.
The
concept
is
related
to
pseudospin
and
isospin,
but
its
usage
is
not
standardized
across
fields.
and
its
meaning
may
differ
between
authors.
See
also
spin,
pseudospin,
isospin,
quantum
dots,
bilayer
graphene.