Research Square (Research Square),
Journal Year:
2024,
Volume and Issue:
unknown
Published: Jan. 5, 2024
Abstract
DNA
is
a
complex
multi-resolution
molecule
whose
theoretical
study
challenge.
Its
intrinsic
multiscale
nature
requires
chemistry
and
quantum
physics
to
understand
the
structure
informatics
explain
its
operation
as
perfect
computer.
Here,
we
present
results
of
that
allow
better
description
process
in
transmission,
coding,
decoding
genetic
information.
Aromaticity
explained
by
oscillatory
resonant
state
correlated
electron
hole
pairs
due
quantized
molecular
vibrational
energy
acting
an
attractive
force.
The
form
supercurrent
nitrogenous
bases
single
band
π-molecular
orbital
(π-MO).
MO
wave
function
(Φ)
assumed
be
linear
combination
n
constituent
atomic
orbitals.
central
Hydrogen
bond
between
Adenine
(A)
Thymine
(T)
or
Guanine
(G)
Cytosine
(C)
functions
like
ideal
Josephson
Junction.
approach
Effect
two
superconductors
correctly
described,
well
condensation
obtain
entangled
states
qubit.
Combining
composite
system
with
classical
information,
RNA
polymerase
teleports
one
four
Bell
states.
IEEE Communications Surveys & Tutorials,
Journal Year:
2024,
Volume and Issue:
26(3), P. 1898 - 1949
Published: Jan. 1, 2024
Communication
security
has
to
evolve
a
higher
plane
in
the
face
of
threat
from
massive
computing
power
emerging
quantum
computers.
Quantum
secure
direct
communication
(QSDC)
constitutes
promising
branch
communication,
which
is
provably
and
overcomes
computing,
whilst
conveying
secret
messages
directly
via
channel.
In
this
survey,
we
highlight
motivation
status
QSDC
research
with
special
emphasis
on
its
theoretical
basis
experimental
verification.
We
will
detail
associated
point-to-point
protocols
show
how
information
protected
transmitted.
Finally,
discuss
open
challenges
as
well
future
trends
networks,
emphasizing
again
that
not
pure
key
distribution
(QKD)
protocol,
but
fully-fledged
scheme.
Deleted Journal,
Journal Year:
2025,
Volume and Issue:
2(1)
Published: March 1, 2025
Quantum
game
theory
has
emerged
as
a
promising
candidate
to
further
the
understanding
of
quantum
correlations.
Motivated
by
this,
it
is
demonstrated
that
pure
strategy
Nash
equilibria
can
be
utilized
mechanism
witness
and
determine
correlation.
By
combining
with
Bayesian
theory,
constant-sum
designed
in
which
players
are
competing
against
each
other
crucially
gain
at
player’s
expense.
Subsequently,
found
mixed
only
necessary
when
considering
correlation
for
game.
This
reveals
game-theoretic
framework
yields
sufficient
condition
detecting
effects.
IEEE Network,
Journal Year:
2023,
Volume and Issue:
38(1), P. 124 - 130
Published: Oct. 25, 2023
Quantum
federated
learning
(QFL)
is
a
novel
framework
that
integrates
the
advantages
of
classical
(FL)
with
computational
power
quantum
technologies.
This
includes
computing
and
machine
(QML),
enabling
QFL
to
handle
high-dimensional
complex
data.
can
be
deployed
over
both
communication
networks
in
order
benefit
from
information-theoretic
security
levels
surpassing
traditional
FL
frameworks.
In
this
paper,
we
provide
first
comprehensive
investigation
challenges
opportunities
QFL.
We
particularly
examine
key
components
identify
unique
arise
when
deploying
it
networks.
then
develop
solutions
articulate
promising
research
directions
help
address
identified
challenges.
also
actionable
recommendations
advance
practical
realization
IEEE Network,
Journal Year:
2023,
Volume and Issue:
38(1), P. 112 - 123
Published: Oct. 31, 2023
The
quantum
internet
is
envisaged
to
connect
systems
at
a
global
scale
provide
diverse
applications
unimaginable
with
the
classical
internet.
However,
technological
shortcomings
and
practical
challenges
of
noisy
intermediate-scale
(NISQ)
devices
impose
several
constraints
on
vision
truly
Recent
experimental
developments
for
networks
are
laying
pathway
from
small-scale
dedicated
specific
operational
tasks.
Although
these
not
scale,
they
capable
providing
clear
advantage
in
their
We
explore
cardinal
features
NISQ
networks,
discuss
design
constraints,
possible
provide.
also
outline
some
technical
that
need
be
addressed
implementation
eventually
lead
toward
global,
fully
functional
Scientific Reports,
Journal Year:
2024,
Volume and Issue:
14(1)
Published: May 21, 2024
Abstract
DNA
is
a
complex
multi-resolution
molecule
whose
theoretical
study
challenge.
Its
intrinsic
multiscale
nature
requires
chemistry
and
quantum
physics
to
understand
the
structure
informatics
explain
its
operation
as
perfect
computer.
Here,
we
present
results
of
that
allow
better
description
process
in
transmission,
coding,
decoding
genetic
information.
Aromaticity
explained
by
oscillatory
resonant
state
correlated
electron
hole
pairs
due
quantized
molecular
vibrational
energy
acting
an
attractive
force.
The
form
supercurrent
nitrogenous
bases
single
band
$$\pi$$
π
-molecular
orbital
(
-MO).
MO
wave
function
$$(\Phi
)$$
(Φ)
assumed
be
linear
combination
n
constituent
atomic
orbitals.
central
Hydrogen
bond
between
Adenine
(A)
Thymine
(T)
or
Guanine
(G)
Cytosine
(C)
functions
like
ideal
Josephson
Junction.
approach
Effect
two
superconductors
correctly
described,
well
condensation
obtain
entangled
states
qubit.
Combining
composite
system
with
classical
information,
RNA
polymerase
teleports
one
four
Bell
states.
IET Quantum Communication,
Journal Year:
2024,
Volume and Issue:
unknown
Published: March 19, 2024
Abstract
Entanglement‐assisted
quantum
key
distribution
(QKD)
has
attracted
significant
attention
for
its
ability
to
provide
highly
secure
wireless
systems.
This
work
explores
the
employment
of
teleportation
and
Fourier
transform
(QFT)
in
entanglement‐assisted
QKD
enhance
security.
By
integrating
concepts
entanglement,
teleportation,
QFT,
strategy
is
significantly
improved,
leading
more
communication.
The
system
been
thoroughly
tested
bit
error
rate,
reconciliation
efficiency.
results
show
that
this
technique
outperforms
standard
BB84
protocol.
Based
on
their
simulations,
protocol
appears
be
a
promising
providing
quantum‐level
security
next‐generation
communication
