89 research outputs found
Quantum Erasure by Transverse Indistinguishability
We show that the first experiment with double-slits and twin photons detected
in coincidence can be understood as a quantum eraser. The ``which path''
information is erased by transverse indistinguishability obtained by means of
mode filtering in the twin conjugated beam. A delayed choice quantum eraser
based on the same scheme is proposed.Comment: Submitted for publication in Optics Communication
Adénocarcinome pulmonaire primitif: expérience d’un centre hospitalier tunisien
La fréquence de l'adénocarcinome pulmonaire primitif est en nette augmentation au dépend des autres types histologiques de cancer bronchique primitif. En effet, il représente environ 40% des cas des carcinomes bronchiques non à petites cellules (CNPC). Il se distingue par certaines particularités. Décrire les aspects épidémiologiques, cliniques, thérapeutiques et évolutifs de l'adénocarcinome pulmonaire primitif. Etuderétrospective incluant 322 patients porteurs d'adénocarcinome pulmonaire primitif, hospitalisés au service de pneumologie du centre hospitalouniversitaire de Monastir (Tunisie) entre janvier 1990 et septembre 2013. L'âge moyen de nos patients était de 59,4 ans. 25,8% sont âgés de moins de 50 ans. Une prédominance masculine (86,3%) a été notée. 81,7% des patients étaient tabagiques. La symptomatologie respiratoire était dominée par la douleur thoracique (57,1%) et la toux (46%). Au moment du diagnostic, 73,3 % des patients étaient au stade métastatique. Les localisations secondaires les plus fréquentes étaient le poumon controlatéral (25,5%), la plèvre (21,1%) et l'os (19,25%). La prise en charge thérapeutique s'est basée essentiellement sur la chimiothérapie (48,5% des cas). Seulement 10,3% des patients ont bénéficié d'un traitement chirurgical. La médiane de survie de nos patients était de 6 mois avec une survie à 1 an, 3 ans et 5 ans respectivement de 25,9%, 3,2% et 2%. L'adénocarcinome bronchique primitif est un sous type histologique particulier parmi les cancers broncho-pulmonaires primitifs. Son incidence est en augmentation depuis une vingtaine d'année. Malgré les progrès thérapeutiques, il reste de mauvais pronostic
Quantum state reconstruction of the single-photon Fock state
We have reconstructed the quantum state of optical pulses containing single
photons using the method of phase-randomized pulsed optical homodyne
tomography. The single-photon Fock state |1> was prepared using conditional
measurements on photon pairs born in the process of parametric down-conversion.
A probability distribution of the phase-averaged electric field amplitudes with
a strongly non-Gaussian shape is obtained with the total detection efficiency
of (55+-1)%. The angle-averaged Wigner function reconstructed from this
distribution shows a strong dip reaching classically impossible negative values
around the origin of the phase space.Comment: 4 pages, 4 figures, to appear in Physical Review Letters. Avoid
downloading PDF due to extremely poor figure resolution. Use Postscrip
Nano-displacement measurements using spatially multimode squeezed light
We demonstrate the possibility of surpassing the quantum noise limit for
simultaneous multi-axis spatial displacement measurements that have zero mean
values. The requisite resources for these measurements are squeezed light beams
with exotic transverse mode profiles. We show that, in principle, lossless
combination of these modes can be achieved using the non-degenerate Gouy phase
shift of optical resonators. When the combined squeezed beams are measured with
quadrant detectors, we experimentally demonstrate a simultaneous reduction in
the transverse x- and y- displacement fluctuations of 2.2 dB and 3.1 dB below
the quantum noise limit.Comment: 21 pages, 9 figures, submitted to "Special Issue on Fluctuations &
Noise in Photonics & Quantum Optics" of J. Opt.
Multi-Parameter Entanglement in Femtosecond Parametric Down-Conversion
A theory of spontaneous parametric down-conversion, which gives rise to a
quantum state that is entangled in multiple parameters, such as
three-dimensional wavevector and polarization, allows us to understand the
unusual characteristics of fourth-order quantum interference in many
experiments, including ultrafast type-II parametric down-conversion, the
specific example illustrated in this paper. The comprehensive approach provided
here permits the engineering of quantum states suitable for quantum information
schemes and new quantum technologies.Comment: to appear in Physical Review
Multi-parameter Entanglement in Quantum Interferometry
The role of multi-parameter entanglement in quantum interference from
collinear type-II spontaneous parametric down-conversion is explored using a
variety of aperture shapes and sizes, in regimes of both ultrafast and
continuous-wave pumping. We have developed and experimentally verified a theory
of down-conversion which considers a quantum state that can be concurrently
entangled in frequency, wavevector, and polarization. In particular, we
demonstrate deviations from the familiar triangular interference dip, such as
asymmetry and peaking. These findings improve our capacity to control the
quantum state produced by spontaneous parametric down-conversion, and should
prove useful to those pursuing the many proposed applications of down-converted
light.Comment: submitted to Physical Review
Cumulant expansion for studying damped quantum solitons
The quantum statistics of damped optical solitons is studied using
cumulant-expansion techniques. The effect of absorption is described in terms
of ordinary Markovian relaxation theory, by coupling the optical field to a
continuum of reservoir modes. After introduction of local bosonic field
operators and spatial discretization pseudo-Fokker-Planck equations for
multidimensional s-parameterized phase-space functions are derived. These
partial differential equations are equivalent to an infinite set of ordinary
differential equations for the cumulants of the phase-space functions.
Introducing an appropriate truncation condition, the resulting finite set of
cumulant evolution equations can be solved numerically. Solutions are presented
in Gaussian approximation and the quantum noise is calculated, with special
emphasis on squeezing and the recently measured spectral photon-number
correlations [Spaelter et al., Phys. Rev. Lett. 81, 786 (1998)].Comment: 17 pages, 13 figures, revtex, psfig, multicols, published in
Phys.Rev.
Review of recent experimental progresses in Foundations of Quantum Mechanics and Quantum Information obtained in Parametric Down Conversion Experiments at IENGF
We review some recent experimental progresses concerning Foundations of
Quantum Mechanics and Quantum Information obtained in Quantum Optics Laboratory
"Carlo Novero" at IENGF.
More in details, after a short presentation of our polarization entangled
photons source (based on precise superposition of two Type I PDC emission) and
of the results obtained with it, we describe an innovative double slit
experiment where two degenerate photons produced by PDC are sent each to a
specific slit. Beyond representing an interesting example of relation between
visibility of interference and "welcher weg" knowledge, this configuration has
been suggested for testing de Broglie-Bohm theory against Standard Quantum
Mechanics. Our results perfectly fit SQM results, but disagree with dBB
predictions.
Then, we discuss a recent experiment addressed to clarify the issue of which
wave-particle observables are really to be considered when discussing wave
particle duality. This experiments realises the Agarwal et al. theoretical
proposal, overcoming limitations of a former experiment.
Finally, we hint to the realization of a high-intensity
high-spectral-selected PDC source to be used for quantum information studies
Schmidt modes generated in parametric downconversion
This paper presents the general Schmidt decomposition of two-photon fields
generated in spontaneous parametric down-conversion (SPDC). It discusses in
particular the separation of the radial and azimuthal degrees of freedom, the
role of projection in modal analysis, and the benefits of collinear phase
mismatch. The paper is written in a review style and presents a wealth of
numerical results. It aims at emphasising the physics beyond the mathematics,
through discussions and graphical representations of key results.Comment: 11 pages, 13 figure
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