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.
SAGE Open,
Journal Year:
2025,
Volume and Issue:
15(1)
Published: Jan. 1, 2025
The
objective
of
this
research
work
is
to
study
and
analyze
the
most
influential
barriers,
minimize
their
effect
for
successful
implementation
industry
4.0
technologies
in
manufacturing
industry.
identified
barriers
are
classified
into
(i)
operational,
(ii)
technical,
(iii)
social
barriers.
Drivers
proposed
a
relationship
between
drivers
has
been
established
using
data
collected
from
questionnaire
survey
India.
A
multicriteria
decision-making
(MCDM)
model
formulated
solved
by
methodology
involving
interval-valued
spherical
fuzzy
sets
(IVSF)
based
TOPSIS
method.
results
indicate
that
high
investment,
communication
operational
information
technologies,
resistance
employees
change
prove
be
potential
developing
countries.
such
as
government
initiatives,
establishment
fast
internet
connectivity,
job
security,
etc.,
recommended
minimizing
PRX Quantum,
Journal Year:
2025,
Volume and Issue:
6(1)
Published: March 4, 2025
Entanglement
is
essential
for
quantum
information
processing,
but
limited
by
noise.
We
address
this
developing
high-yield
entanglement
distillation
protocols
with
several
advancements.
(1)
extend
the
2-to-1
recurrence
protocol
to
higher-rate
n-to-(n−1)
that
can
correct
any
single-qubit
errors.
These
are
evaluated
through
numerical
simulations
focusing
on
fidelity
and
yield.
also
outline
a
method
adapt
classical
error-correcting
code
distillation,
where
both
bit-flip
phase-flip
errors
incorporating
Hadamard
gates.
(2)
propose
constant-depth
decoder
stabilizer
codes
transforms
logical
states
into
physical
ones
using
measurements.
This
applied
protocols,
reducing
circuit
depth
enabling
derived
from
high-performance
codes.
demonstrate
evaluating
complexity
based
surface
convolutional
(3)
Our
techniques
advance
computing.
fault-tolerant
encoding
decoding
of
arbitrary
in
codes,
potential
extensions
more
general
low-density
parity-check
feasible
state-of-the-art
reconfigurable
atom
arrays
surpasses
limits
conventional
logarithmic
encoders.
Overall,
our
study
integrates
formalism,
measurement-based
computing,
advancing
communication
Published
American
Physical
Society
2025
IEEE Communications Surveys & Tutorials,
Journal Year:
2024,
Volume and Issue:
26(3), P. 1606 - 1634
Published: Jan. 1, 2024
With
the
development
of
quantum
technologies,
internet
has
demonstrated
unique
applications
beyond
classical
and
been
investigated
extensively
in
recent
years.
In
construction
conventional
software,
protocol
stack
is
core
architecture
for
coordinating
modules.
How
to
design
a
challenging
problem.
this
paper,
we
systematically
review
latest
developments
protocols
from
perspective
layering.
By
summarizing
analyzing
progress
each
layer's
protocols,
reveal
current
research
status
connections
among
layers.
Our
work
provides
readers
with
comprehensive
understanding
can
help
support
researchers
focusing
on
single
layer
better
define
functions
that
should
possess
optimize
related
protocols.
This
approach
enables
all
layers
together
based
an
other
Science China Technological Sciences,
Journal Year:
2024,
Volume and Issue:
67(7), P. 2277 - 2280
Published: June 21, 2024
Quantum
information
technologyQuantum
technology
utilizes
physical
systems
at
the
microscopic
level,
such
as
photon,
atom,
ion,
and
superconducting,
to
accomplish
information-processing
tasks
that
are
impossible
for
classical
macroscopic
world.During
past
decade,
significant
process
has
been
achieved
in
pursuit
of
quantum
into
practical
applications,
generating
great
research
interest
from
various
domains,
with
potential
radically
change
our
infrastructure
[1][2][3].The
principle
mechanics
governs
state
dynamics
same
way
Newtonian-Euler
systems.Mathematically,
any
is
described
by
a
vector
|ψ⟩
Hilbert
space
H,
or
density
operator
ρ
dual
H
*
.In
comparison
their
counterparts,
possess
few
distinct
features.•
The
evolution
follows
Schrödinger
equation
i
d
dt
|ψ(t)⟩
=
Ĥ|ψ(t)⟩,
where
Hermitian
Ĥ
refers
system
Hamiltonian.•
multiple
subsystems
can
be
expressed
tensor-product
|Ψ⟩
|ψ
1
⟩
⊗
•
n
⟩,
j
describes
subsystem
1,
.
.,
n.
IEEE Network,
Journal Year:
2023,
Volume and Issue:
38(1), P. 104 - 111
Published: Oct. 30, 2023
The
design
of
the
Quantum
Internet
protocol
stack
is
at
its
infancy
and
early-stage
conceptualization.
And
different
heterogeneous
proposals
are
currently
available
in
literature.
underlying
assumption
existing
that
they
implicitly
mimic
classical
Protocol
principles:
"
A
name
indicates
what
we
seek.
An
address
where
it
is.
route
how
to
get
there
".
Hence
network
nodes
labeled
with
addresses,
constituted
by
bits,
these
labels
aim
reflecting
node
location
within
topology.
In
this
paper,
argue
twofold
location-aware
addressing
constitutes
a
restricting
option,
which
prevents
scale
quantumness
functionalities,
beyond
simple
information
encoding/decoding.
On
contrary,
embracing
quantum
principles
phenomena
could
be
exploited
for
enabling
native
functioning
entire
communication
network.
This
will
unleash
ultimate
vision
capabilities
Internet.
Photonics,
Journal Year:
2024,
Volume and Issue:
11(3), P. 268 - 268
Published: March 18, 2024
The
design
and
operation
of
quantum
networks
are
both
decisive
in
the
current
push
towards
a
global
internet.
Although
space-enabled
connectivity
has
already
been
identified
as
beneficial
candidate
for
long-range
channels
over
two
decades,
architecture
hybrid
space–ground
network
is
still
work
progress.
Here,
we
propose
an
analysis
such
based
on
best-path
approach,
where
either
fiber-
or
satellite-based
elementary
links
can
be
concatenated
to
form
repeater
chain.
consisting
information
processing
nodes,
equipped
with
ground
space
connections,
mapped
into
graph
structure,
edge
weights
represent
achievable
secret
key
rates,
chosen
figure
merit
analysis.
A
weight
minimization
algorithm
allows
identifying
best
path
dynamically,
i.e.,
weather
conditions,
stray
light
radiance,
satellite
orbital
position
change.
From
results,
conclude
that
will
play
significant
role
future
large-scale
internet,
particular
when
node
distances
exceed
500
km,
constellation
satellites—spanning
20
more
satellites—and
advances
filtering
technology
required
achieve
continuous
coverage.
IEEE Network,
Journal Year:
2023,
Volume and Issue:
38(1), P. 87 - 95
Published: Oct. 30, 2023
The
Quantum
Internet
(QI)
is
a
hypothetical
global
network
infrastructure
that
exploits
quantum
mechanics
principles
to
distribute
qubits
worldwide.
QI
will
enable
breakthrough
applications
like
unconditional
security,
distributed
computing,
and
metrology.
Nonetheless,
the
currently
research-stage
technology
with
daunting
challenges
until
fully-functional
networks
(QNs)
can
be
realized.
QNs
are
not
standalone
but
require
classical
assist
exchange
between
remote
places
through
teleportation.
On
other
hand,
control
management
planes
remain
due
networking
manufacturing
complexity
cost.
This
article
addresses
integrating
Sixth
Generation
Beyond
(6GB)
mobile
networks.
foreseen
next
generations
of
wireless
networks,
offering
extensive
ubiquity
improved
ultra-reliable
low-latency
support
over
larger
distances
than
their
predecessors.
Therefore,
it
best-suited
candidate
potential
non-terrestrial
applications.
Unlike
existing
literature
highlighting
technology’s
benefits
this
work
presents
fresh
vision
in
which
6GB
enhances
even
contributes
accelerating
its
development.
To
end,
we
identify
target
scenarios
enabled,
facilitated,
or
benefited
by
6GB.
We
propose
Software-Defined
programmable
6GB-integrated
QN
architecture
slicing
associated
procedure
create
virtual
slices.
Last,
present
proof-of-principle
showing
impose
deterministic
requirements
out
5G
reach.
