Physical review. A/Physical review, A,
Год журнала:
2023,
Номер
108(4)
Опубликована: Окт. 12, 2023
We
investigate
coherent
single-photon
transport
in
a
waveguide
quantum
electrodynamics
structure
containing
multiple
giant
atoms.
The
scattering
amplitudes
are
solved
using
real-space
method.
results
give
rise
to
clear
picture
of
the
multichannel
process.
In
case
identical
and
equally
spaced
atoms
separate
configuration,
we
also
use
transfer-matrix
method
express
terms
compact
analytical
expressions,
which
allow
us
conveniently
analyze
properties
spectra.
Based
on
these
theoretical
results,
find
that
nondipole
effects
atoms,
relevant
design
setup,
can
strongly
manipulate
several
types
collective
output
fields,
including
superradiant
phenomenon,
Fano
interference,
photonic
band
gap.
This
makes
it
possible
photon
more
versatile
way
than
with
small
make
proposal
probe
topological
states
chain
braided
by
spectra,
showing
systems
ideal
platforms
merge
physics
on-chip
optics.
Journal of Optics,
Год журнала:
2023,
Номер
25(10), С. 103001 - 103001
Опубликована: Июль 26, 2023
Abstract
Structured
waves
are
ubiquitous
for
all
areas
of
wave
physics,
both
classical
and
quantum,
where
the
wavefields
inhomogeneous
cannot
be
approximated
by
a
single
plane
wave.
Even
interference
two
waves,
or
(evanescent)
wave,
provides
number
nontrivial
phenomena
additional
functionalities
as
compared
to
Complex
with
inhomogeneities
in
amplitude,
phase,
polarization,
including
topological
structures
singularities,
underpin
modern
nanooptics
photonics,
yet
they
equally
important,
e.g.
quantum
matter
acoustics,
water
etc.
crucial
optical
electron
microscopy,
propagation
scattering,
imaging,
communications,
optics,
non-Hermitian
systems,
condensed-matter
optomechanics,
plasmonics
metamaterials,
acoustic
manipulation,
so
forth.
This
Roadmap
is
written
collectively
prominent
researchers
aims
survey
role
structured
various
physics.
Providing
background,
current
research,
anticipating
future
developments,
it
will
interest
wide
cross-disciplinary
audience.
We
demonstrate
a
superconducting
artificial
atom
with
strong
unidirectional
coupling
to
microwave
photonic
waveguide.
Our
is
realized
by
transmon
qubit
the
waveguide
at
two
spatially
separated
points
time-modulated
interactions.
Direction-sensitive
interference
arising
from
parametric
couplings
in
our
scheme
results
nonreciprocal
response,
where
we
measure
forward/backward
ratio
of
spontaneous
emission
exceeding
100.
verify
quantum
nonlinear
behavior
this
chiral
measuring
resonance
fluorescence
spectrum
under
resonant
drive
and
observing
well-resolved
Mollow
triplets.
Further,
chirality
for
second
transition
energy
control
it
pulse
sequence
realize
qubit-state-dependent
phase
on
itinerant
photons.
demonstration
puts
forth
hardware
platform
scalable
realization
several
key
functionalities
pursued
within
paradigm
optics,
including
networks
all-to-all
connectivity,
driven-dissipative
stabilization
many-body
entanglement,
generation
complex
nonclassical
states
light.8
MoreReceived
21
December
2022Revised
12
April
2023Accepted
26
2023DOI:https://doi.org/10.1103/PhysRevX.13.021039Published
American
Physical
Society
terms
Creative
Commons
Attribution
4.0
International
license.
Further
distribution
work
must
maintain
attribution
author(s)
published
article's
title,
journal
citation,
DOI.Published
SocietyPhysics
Subject
Headings
(PhySH)Research
AreasOpen
systems
&
decoherenceQuantum
networksQuantum
simulationQuantum
Information
Physical Review Letters,
Год журнала:
2024,
Номер
132(9)
Опубликована: Фев. 27, 2024
The
quantum
battery
(QB)
makes
use
of
effects
to
store
and
supply
energy,
which
may
outperform
its
classical
counterpart.
However,
there
are
two
challenges
in
this
field.
One
is
that
the
environment-induced
decoherence
causes
energy
loss
aging
QB,
other
decreasing
charger-QB
coupling
strength
with
increasing
their
distance
charging
QB
become
inefficient.
Here,
we
propose
a
scheme
realize
remote
via
charger
rectangular
hollow
metal
waveguide.
It
found
an
ideal
realized
as
long
bound
states
formed
spectrum
total
system
consisting
charger,
electromagnetic
environment
Using
constructive
role
decoherence,
our
immune
aging.
Additionally,
without
resorting
direct
interaction,
works
way
long-range
wireless-like
charging.
Effectively
overcoming
challenges,
result
supplies
insightful
guideline
practical
realization
by
reservoir
engineering.
Physical review. A/Physical review, A,
Год журнала:
2022,
Номер
106(1)
Опубликована: Июль 21, 2022
We
study
the
coherent
single-photon
scattering
in
a
one-dimensional
waveguide
coupled
to
giant
artificial
molecule
consisting
of
two
atoms.
Since
each
atom
couples
via
coupling
points,
couplings
with
have
three
different
configurations:
separated-,
braided-,
and
nested-coupling
cases.
obtain
exact
expressions
transmission
reflection
amplitudes
real-space
approach.
It
is
found
that
behavior
spectra
depends
on
phase
shift
between
neighboring
configuration,
Concretely,
we
photon
both
Markovian
non-Markovian
regimes,
which
propagating
time
points
neglected
considered,
respectively.
Under
limit,
asymmetric
Fano
line
shapes
configurations
giant-molecule
waveguide-QED
system
can
be
obtained
by
choosing
proper
shift,
window
adjusted
strength
atoms
these
configurations.
In
particular,
multiple
peaks
dips
are
revived
regime.
This
paper
will
pave
way
for
controllable
devices
based
systems.
Physical review. A/Physical review, A,
Год журнала:
2023,
Номер
108(2)
Опубликована: Авг. 28, 2023
We
study
the
generation
of
quantum
entanglement
between
two
giant
atoms
coupled
to
a
one-dimensional
waveguide.
Since
each
atom
interacts
with
waveguide
at
separate
coupling
points,
there
exist
three
different
configurations
in
two-atom
system:
separated,
braided,
and
nested
couplings.
Within
Wigner-Weisskopf
framework
for
single
master
equations
governing
evolution
are
obtained.
For
configuration,
dynamics
is
studied,
including
cases
atomic
initial
states:
single-
double-excitation
states.
It
shown
that
generated
depends
on
phase
shift,
state.
single-excitation
state,
exists
steady-state
these
couplings
due
appearance
dark
an
sudden
birth
observed
via
adjusting
shift.
In
particular,
maximal
about
one
order
magnitude
larger
than
those
braided
addition,
influence
frequency
detuning
studied.
This
work
can
be
utilized
control
networks
based
giant-atom
waveguide-QED
systems,
which
have
wide
potential
applications
information
processing.
Physical review. A/Physical review, A,
Год журнала:
2024,
Номер
109(2)
Опубликована: Фев. 13, 2024
We
study
the
non-Markovian
dynamics
of
a
two-level
giant
atom
interacting
with
one-dimensional
semi-infinite
waveguide
through
multiple
coupling
points,
where
perfect
mirror
is
located
at
endpoint
waveguide.
The
system
enters
process
when
travel
time
photon
between
adjacent
points
sufficiently
large
compared
to
inverse
bare
relaxation
rate
atom.
released
by
spontaneous
emission
transfers
or
reabsorbed
emitted
via
having
completed
round
trip
after
reflection
mirror,
which
leads
being
trapped
and
forming
bound
states.
find
that
three
different
types
states
can
be
formed
in
system,
containing
static
no
inversion
population,
periodic
equal
amplitude
oscillation
two
states,
non-equal
physical
origins
formation
are
revealed.
Moreover,
we
consider
influences
dissipation
unwanted
modes
dephasing
on
Finally,
extend
more
general
case
involving
many
atoms
coupled
into
obtained
set
delay
differential
equations
for
might
open
way
better
understand
The
generation
of
entanglement
between
distant
quantum
systems
is
at
the
core
networking.
In
recent
years,
numerous
theoretical
protocols
for
remote-entanglement
have
been
proposed,
many
which
experimentally
realized.
Here,
we
provide
a
modular
framework
to
elucidate
general
mechanisms
photon-mediated
single
spins
in
atomic
or
solid-state
systems.
Our
categorizes
existing
various
levels
abstraction
and
allows
combining
elements
different
schemes
new
ways.
These
layers
make
it
possible
readily
compare
hardware.
To
enable
practical
evaluation
tailored
specific
experimental
parameters,
devised
numerical
simulations
based
on
with
our
codes
available
online.1
MoreReceived
27
June
2023Revised
30
October
2023DOI:https://doi.org/10.1103/PRXQuantum.5.010202Published
by
American
Physical
Society
under
terms
Creative
Commons
Attribution
4.0
International
license.
Further
distribution
this
work
must
maintain
attribution
author(s)
published
article's
title,
journal
citation,
DOI.Published
SocietyPhysics
Subject
Headings
(PhySH)Research
AreasEntanglement
productionOptical
information
processingQuantum
entanglementQuantum
atoms
&
lightQuantum
solid
state
qubitsQuantum
trapped
ionsQuantum
networksQuantum
repeatersQuantum
Information,
Science
Technology
We
experimentally
investigate
the
collective
radiative
decay
of
a
fully
inverted
ensemble
two-level
atoms
for
chiral,
i.e.,
propagation
direction-dependent
light-matter
coupling.
Despite
fundamentally
different
interaction
Hamiltonian
which
has
reduced
symmetry
compared
to
standard
Dicke
case
superradiance,
we
do
observe
superradiant
burst
light.
The
occurs
above
threshold
number
atoms,
and
its
peak
power
scales
faster
with
than
in
free-space
superradiance.
measure
first-order
coherence
distinguish
two
regimes,
one
dominated
by
induced
during
excitation
process
other
governed
vacuum
fluctuations.
Our
results
shed
light
on
dynamics
cascaded
quantum
many-body
systems,
systems
each
emitter
is
only
driven
radiated
emitters
that
are
upstream
cascade.
findings
may
turn
out
useful
generating
multiphoton
Fock
states
as
resource
technologies.
Published
American
Physical
Society
2024
Nature Communications,
Год журнала:
2024,
Номер
15(1)
Опубликована: Март 16, 2024
Abstract
As
light
can
mediate
interactions
between
atoms
in
a
photonic
environment,
engineering
it
for
endowing
the
photon-mediated
Hamiltonian
with
desired
features,
like
robustness
against
disorder,
is
crucial
quantum
research.
We
provide
general
theorems
on
topology
of
terms
both
Hermitian
and
non-Hermitian
topological
invariants,
unveiling
phenomena
preservation
reversal,
revealing
system-bath
correspondence.
Depending
Hermiticity
environment
parity
spatial
dimension,
atomic
invariants
turn
out
to
be
equal
or
opposite.
Consequently,
emergence
boundary
modes
opposite
group
velocities
two-dimensional
systems
established.
Owing
its
applicability,
our
results
guide
design
systems.
