3,114 research outputs found
Nonclassicality filters and quasiprobabilities
Necessary and sufficient conditions for the nonclassicality of bosonic
quantum states are formulated by introducing nonclassicality filters and
nonclassicality quasiprobability distributions. Regular quasiprobabilities are
constructed from characteristic functions which can be directly sampled by
balanced homodyne detection. Their negativities uncover the nonclassical
effects of general quantum states. The method is illustrated by visualizing the
nonclassical nature of a squeezed state.Comment: Significantly revised version, more emphasis on practical applicatio
Moments of nonclassicality quasiprobabilities
A method is introduced for the verification of nonclassicality in terms of
moments of nonclassicality quasiprobability distributions. The latter are
easily obtained from experimental data and will be denoted as nonclassicality
moments. Their relation to normally-ordered moments is derived, which enables
us to verify nonclassicality by using well established criteria. Alternatively,
nonclassicality criteria are directly formulated in terms of nonclassicality
moments. The latter converge in proper limits to the usually used criteria, as
is illustrated for squeezing and sub-Poissonian photon statistics. Our theory
also yields expectation values of any observable in terms of nonclassicality
moments.Comment: 6 pages, 3 figure
Single-photon optomechanics in the strong coupling regime
We give a theoretical description of a coherently driven opto-mechanical
system with a single added photon. The photon source is modeled as a cavity
which initially contains one photon and which is irreversibly coupled to the
opto-mechanical system. We show that the probability for the additional photon
to be emitted by the opto-mechanical cavity will exhibit oscillations under a
Lorentzian envelope, when the driven interaction with the mechanical resonator
is strong enough. Our scheme provides a feasible route towards quantum state
transfer between optical photons and micromechanical resonators.Comment: 14 pages, 6 figure
Experimental Analysis of a 4-Qubit Cluster State
Linear optics quantum logic operations enabled the observation of a
four-photon cluster state. We prove genuine four-partite entanglement and study
its persistency, demonstrating remarkable differences to the usual GHZ state.
Efficient analysis tools are introduced in the experiment, which will be of
great importance in further studies on multi-particle entangled states.Comment: 5 pages, 4 figures, submitte
An elementary optical gate for expanding entanglement web
We introduce an elementary optical gate for expanding polarization entangled
W states, in which every pair of photons are entangled alike. The gate is
composed of a pair of 50:50 beamsplitters and ancillary photons in the
two-photon Fock state. By seeding one of the photons in an -photon W state
into this gate, we obtain an -photon W state after post-selection. This
gate gives a better efficiency and a simpler implementation than previous
proposals for -state preparation.Comment: 5 pages, 2 figures. To appear in Phys. Rev.
Large Quantum Superpositions and Interference of Massive Nanometer-Sized Objects
We propose a method to prepare and verify spatial quantum superpositions of a
nanometer-sized object separated by distances of the order of its size. This
method provides unprecedented bounds for objective collapse models of the wave
function by merging techniques and insights from cavity quantum optomechanics
and matter wave interferometry. An analysis and simulation of the experiment is
performed taking into account standard sources of decoherence. We provide an
operational parameter regime using present day and planned technology.Comment: 4 pages, 2 figures, to appear in PR
Nonclassicality Quasiprobability of Single-Photon Added Thermal States
We report the experimental reconstruction of a nonclassicality
quasiprobability for a single-photon added thermal state. This quantity has
significant negativities, which is necessary and sufficient for the
nonclassicality of the quantum state. Our method presents several advantages
compared to the reconstruction of the P function, since the nonclassicality
filters used in this case can regularize the quasiprobabilities as well as
their statistical uncertainties. A-priori assumptions about the quantum state
are therefore not necessary. We also demonstrate that, in principle, our method
is not limited by small quantum efficiencies.Comment: 6 pages, 4 figure
Experimental determination of a nonclassical Glauber-Sudarshan P function
A quantum state is nonclassical if its Glauber-Sudarshan P function fails to
be interpreted as a probability density. This quantity is often highly
singular, so that its reconstruction is a demanding task. Here we present the
experimental determination of a well-behaved P function showing negativities
for a single-photon-added thermal state. This is a direct visualization of the
original definition of nonclassicality. The method can be useful under
conditions for which many other signatures of nonclassicality would not
persist.Comment: 4 pages, 4 figure
Entangled-State Cycles of Atomic Collective-Spin States
We study quantum trajectories of collective atomic spin states of
effective two-level atoms driven with laser and cavity fields. We show that
interesting ``entangled-state cycles'' arise probabilistically when the (Raman)
transition rates between the two atomic levels are set equal. For odd (even)
, there are () possible cycles. During each cycle the
-qubit state switches, with each cavity photon emission, between the states
, where is a Dicke state in a rotated
collective basis. The quantum number (), which distinguishes the
particular cycle, is determined by the photon counting record and varies
randomly from one trajectory to the next. For even it is also possible,
under the same conditions, to prepare probabilistically (but in steady state)
the Dicke state , i.e., an -qubit state with excitations,
which is of particular interest in the context of multipartite entanglement.Comment: 10 pages, 9 figure
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