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NoCloning

Nocloning refers to the no-cloning theorem in quantum information theory, which states that it is impossible to create an exact copy of an arbitrary unknown quantum state. It is a fundamental limit arising from the linearity of quantum mechanics.

Historically, the theorem was proved independently by Wootters and Zurek, and by Dieks in 1982. It shows

Formally, a universal cloning device would take a system in an unknown state |ψ⟩ and an initial blank

The theorem has several important implications and nuances. It does not forbid cloning of known states or

Applications and significance include foundational roles in quantum cryptography, where no-cloning helps ensure the security of

that
no
universal
cloning
machine
can
replicate
all
possible
quantum
states
perfectly
without
disturbing
the
original
state,
precluding
perfect
duplication
of
unknown
quantum
information.
state
to
|ψ⟩⊗|ψ⟩.
Requiring
this
to
hold
for
all
possible
|ψ⟩
leads
to
contradictions
with
the
preservation
of
inner
products
for
different
input
states,
except
in
the
trivial
case
where
the
states
are
orthogonal.
Consequently,
perfect
cloning
of
arbitrary
quantum
states
is
impossible.
sets
of
mutually
orthogonal
states,
and
it
allows
approximate
cloning
for
unknown
states,
as
described
by
optimal
universal
quantum
cloning
machines.
State-dependent
cloning
can
be
designed
for
restricted
ensembles,
achieving
higher
fidelity
within
those
constraints.
quantum
key
distribution,
since
eavesdropping
cannot
be
perfectly
concealed
by
cloning.
The
theorem
also
influences
quantum
teleportation
and
how
entanglement
is
distributed.
Experimental
work
has
demonstrated
the
impossibility
of
perfect
cloning
and
realized
various
approximate
cloning
schemes
in
photonic
systems.