Applied Physics Letters,
Год журнала:
2023,
Номер
123(8)
Опубликована: Авг. 21, 2023
Inspired
by
the
human
eye
retina,
foveated
single-pixel
imaging
employs
an
iterative
algorithm,
which,
unfortunately,
poses
a
challenge
for
real-time
due
to
its
time-consuming
nature.
To
address
this
issue,
we
present
non-iterative
method
based
on
computationally
fast
reducing
time
consumption
five
orders
of
magnitude.
The
algorithmic
transform
facilitates
acquisition
reconstructions.
In
addition
mimicking
saccadic
movements,
strategy
adapts
motion
tracking
through
foveal
gaze
control
method.
During
high-resolution
in
fovea
area,
maximum
sensing
area
expands
3.14
times,
similar
vision.
proposed
retina-like
has
great
potential
future
applications
with
advantages
avoiding
complex
optics
design,
low
consumption,
and
wider
vision
field.
Journal of Optics,
Год журнала:
2023,
Номер
25(9), С. 093001 - 093001
Опубликована: Июль 6, 2023
Abstract
Spatiotemporal
sculpturing
of
light
pulse
with
ultimately
sophisticated
structures
represents
a
major
goal
the
everlasting
pursue
ultra-fast
information
transmission
and
processing
as
well
ultra-intense
energy
concentration
extraction.
It
also
holds
key
to
unlock
new
extraordinary
fundamental
physical
effects.
Traditionally,
spatiotemporal
pulses
are
always
treated
spatiotemporally
separable
wave
packet
solution
Maxwell’s
equations.
In
past
decade,
however,
more
generalized
forms
nonseparable
started
emerge
growing
importance
for
their
striking
This
roadmap
intends
highlight
recent
advances
in
creation
control
increasingly
complex
sculptured
pulses,
from
states,
diverse
geometric
topological
structures,
presenting
bird’s
eye
viewpoint
on
zoology
fields
outlook
future
trends
open
challenges.
Light Science & Applications,
Год журнала:
2025,
Номер
14(1)
Опубликована: Янв. 1, 2025
Optical
metrology
is
a
well-established
subject,
dating
back
to
early
interferometry
techniques
utilizing
light's
linear
momentum
through
fringes.
In
recent
years,
significant
interest
has
arisen
in
using
vortex
light
with
orbital
angular
(OAM),
where
the
phase
twists
around
singular
space
or
time.
This
expanded
metrology's
boundaries
encompass
highly
sensitive
chiral
interactions
between
and
matter,
three-dimensional
motion
detection
via
rotational
Doppler
effects,
modal
approaches
surpassing
resolution
limit
for
improved
profiling
quantification.
The
intricate
structure
of
light,
combined
integration
artificial
intelligence
into
optical
metrology,
unlocks
new
paradigms
expanding
measurement
frameworks
additional
degrees
freedom,
offering
potential
more
efficient
accurate
sensing
metrological
advancements.
review
aims
provide
comprehensive
overview
advances
future
trends
structured
specifically
focusing
on
how
beams
revolutionized
remote
sensing,
transitioning
from
classical
quantum
approaches.
Nature Communications,
Год журнала:
2025,
Номер
16(1)
Опубликована: Март 26, 2025
An
open
challenge
in
the
context
of
quantum
information
processing
and
communication
is
improving
robustness
to
environmental
contributions
noise,
a
severe
hindrance
real-world
scenarios.
Here,
we
show
that
skyrmions
their
nonlocal
topological
observables
remain
resilient
noise
even
as
typical
entanglement
witnesses
measures
state
decay.
This
allows
us
introduce
notion
digitization
based
on
our
discrete
observables,
foregoing
need
for
entanglement.
We
compliment
experiments
with
full
theoretical
treatment
unlocks
mechanisms
behind
behavior,
explaining
why
topology
leads
robustness.
Our
approach
holds
exciting
promise
intrinsic
resilience
through
topology,
highly
applicable
systems
such
global
networks
noisy
computers.
Recent
work
reported
non-local
entangled
photons
skyrmionic
topology.
Here
authors
demonstrate
theoretically
experimentally
properties
this
system
are
decay,
elucidate
Applied Physics Letters,
Год журнала:
2024,
Номер
124(11)
Опубликована: Март 11, 2024
Quantum
photonic
platforms
have
proven
to
be
essential
in
realizing
fundamentally
secure
quantum
transfer
of
information,
with
commercially
ready
systems
already
deployed
municipal
and
terrestrial
links.
The
drive
toward
higher
bit
rates
robustness
eavesdropping
noisy
channels
has
focused
attention
on
moving
from
the
present
two-dimensional
states
polarization,
harnessing
all
light's
degrees
freedom
for
multi-dimensional
coding
structured
photons.
In
this
Perspective,
we
outline
state-of-the-art
achieving
control
spatial
modes
light,
both
as
single
photon
entangled
states,
highlight
open
challenges
that
remain,
consider
roadmap
might
see
its
full
potential
realized.
Laser & Photonics Review,
Год журнала:
2024,
Номер
18(8)
Опубликована: Март 21, 2024
Abstract
Quantum
imaging
exemplifies
the
fascinating
and
counter‐intuitive
nature
of
quantum
world,
where
non‐local
correlations
are
exploited
for
objects
by
remote
non‐interacting
photons.
The
field
has
exploded
late,
driven
advances
in
our
fundamental
understanding
these
processes,
but
also
technology,
instance,
efficient
single
photon
detectors
cameras.
Accelerating
progress
is
nascent
intersection
with
artificial
intelligence
machine
learning,
promising
enhanced
speed
quality
images.
This
review
provides
a
comprehensive
overview
rapidly
evolving
specific
focus
on
ghost
learning
techniques.
seminal
made
to
date
open
challenges
highlighted,
likely
trajectory
future
outlined.
Quantum
metaphotonics
has
emerged
as
a
cutting-edge
subfield
of
meta-optics
employing
subwavelength
resonators
and
their
planar
structures,
such
metasurfaces,
to
generate,
manipulate,
detect
quantum
states
light.
It
holds
great
potential
for
the
miniaturization
current
bulky
optical
elements
by
developing
design
on-chip
systems
various
applications
technologies.
Over
past
few
years,
this
field
witnessed
surge
intriguing
theoretical
ideas,
groundbreaking
experiments,
novel
application
proposals.
This
Perspective
aims
summarize
most
recent
advancements
also
provides
perspective
on
further
progress
in
rapidly
research.
Advanced Quantum Technologies,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 6, 2025
Abstract
In
a
conventional
quantum
imaging
experiment,
the
image
of
object
is
retrieved
directly
with
single
photon
camera
technology,
or
computationally
single‐pixel
detector
and
pixelated
projective
masks.
all
these
approaches,
resolution
dictated
by
pixel
detection
devices.
this
paper,
traditional
spatial
basis
pixels
replaced
modes,
exploiting
their
unique
features
to
enhance
fidelity
improve
reconstruction
accuracy
through
modal
sparsity.
This
approach
can
be
used
even
when
modes
are
not
orthogonal,
demonstrating
principle
highly
efficient
phase‐only
approximations
basis.
By
numerical
simulation
experimental
analysis,
advantages
illustrated,
which
include
faster
convergence
object,
higher
signals
fidelity,
demonstrated
an
order
magnitude
less
masks
than
approaches
for
same
in
outcome.
Unlike
pixels,
detectors,
opening
path
high‐resolution
complex
objects.
Nanophotonics,
Год журнала:
2025,
Номер
14(11), С. 1879 - 1894
Опубликована: Янв. 7, 2025
Frequency-bin
encoding
furnishes
a
compelling
pathway
for
quantum
information
processing
systems
compatible
with
established
lightwave
infrastructures
based
on
fiber-optic
transmission
and
wavelength-division
multiplexing.
Yet
although
significant
progress
has
been
realized
in
proof-of-principle
tabletop
demonstrations,
ranging
from
arbitrary
single-qubit
gates
to
controllable
multiphoton
interference,
challenges
scaling
frequency-bin
processors
larger
remain.
In
this
Perspective,
we
highlight
recent
advances
at
the
intersection
of
integrated
photonics
that
are
fundamentally
transforming
outlook
scalable
frequency-based
information.
Focusing
specifically
results
sources,
state
manipulation,
hyperentanglement,
envision
possible
future
which
on-chip
circuits
fulfill
critical
roles
processing,
particularly
communications
networking.
Spin
angular
momentum
of
a
photon
corresponds
to
polarisation
degree
freedom
lights,
and
such
that
various
properties
are
coming
from
macroscopic
manifestation
quantum-mechanical
lights.
An
orbital
lights
is
also
manipulated
form
vortex
with
momentum,
which
quantised.
However,
it
considered
spin
cannot
be
split
the
total
in
gauge-invariant
way.
Here,
we
revisit
this
issue
for
coherent
monochromatic
ray
laser
source,
propagating
waveguide.
We
obtained
helical
components
by
correspondence
classical
Ponyting
vector.
By
applying
standard
quantum
field
theory
using
state,
gauge-independent
expressions
operators.
During
derivations,
was
essential
take
finite
cross-sectional
area
into
account,
leads
longitudinal
component
along
direction
propagation,
allows
splitting.
Therefore,
mode
profile
responsible
justify
splitting,
not
possible
as
far
were
plane-wave
expansions
quantum-electrodynamics
(QED).
Our
results
suggest
well-defined
freedoms
at
least
photons
waveguide
vacuum
profile.
