182 research outputs found
Exponentially Localized Magnetic Fields for Single-Spin Quantum Logic Gates
An infinite array of parallel current-carrying wires is known, from the field
of neutral particle optics, to produce an exponentially localized magnetic
field when the current direction is antiparallel in adjacent wires. We show
that a finite array of several tens of superconducting Nb nanowires can produce
a peak magnetic field of 10mT that decays by a factor of 10^4 over a length
scale of 500nm. Such an array is readily manufacturable with current
technology, and is compatible with both semiconductor and superconducting
quantum computer architectures. A series of such arrays can be used to
individually address single single-spin or flux qubits spaced as little as
100nm apart, and can lead to quantum logic gate times of 5ns.Comment: 5 pages, incl. 4 figure
Can FCNC transition be seen in decays?
The decays present in principle the opportunity to observe the
short distance FCNC transition , which is sensitive to the
physics beyond the Standard Model. We analyze the decays
within the Standard Model, where in addition to the short distance dynamics
also the long distance dynamics is present. The short distance contribution due
to transition, which is present only in the Cabibbo suppressed
decays, is found to be three orders of magnitude smaller than the long distance
contribution. The branching ratios well above for Cabibbo suppressed
decays could signal new physics. The most frequent decays are the Cabibbo
allowed decays and ,
which are expected at the branching ratios of and , respectively. These rates are not much lower than the present
experimental upper limit.Comment: 3 pages, latex, 3 figures, Talk given by S. Prelovsek at the
Hyperons, Charm and Beauty Hadrons, Genova, Italy, 30 June -3 July 1998, to
appear as proceedings in Nucl. Phys.
Spin Hall effect of Photons in a Static Gravitational Field
Starting from a Hamiltonian description of the photon within the set of
Bargmann-Wigner equations we derive new semiclassical equations of motion for
the photon propagating in static gravitational field. These equations which are
obtained in the representation diagonalizing the Hamiltonian at the order
, present the first order corrections to the geometrical optics. The
photon Hamiltonian shows a new kind of helicity-magnetotorsion coupling.
However, even for a torsionless space-time, photons do not follow the usual
null geodesic as a consequence of an anomalous velocity term. This term is
responsible for the gravitational birefringence phenomenon: photons with
distinct helicity follow different geodesics in a static gravitational field.Comment: 6 page
Sinus-preserving modification of eversional carotid endarterectomy: early and late results
Universitatea de Stat de Medicină de Sud Ural, Spitalul Clinic Regional, Celiabinsk, Federația Rusă, Al XIII-lea Congres al Asociației Chirurgilor „Nicolae Anestiadi” și
al III-lea Congres al Societății de Endoscopie, Chirurgie miniminvazivă și Ultrasonografie ”V.M.Guțu” din Republica MoldovaIntroducere: Endarterectomia carotidiană (EAEC) și-a demonstrat avantajul în tratamentul stenozelor hemodinamic semnificative
ale arterei carotide interne (ACI). Tehnica prin eversiune este cea mai populară, însă în versiunea sa standard se asociază cu
traumatizarea frecventă a sinusului carotidian, cu impact negativ asupra reglării vegetative a tonusului vascular și hemodinamicii.
Scopul: Evaluarea eficacității EAEC prin eversiune cu prezervarea nervilor sinusului carotid, comparând rezultatele precoce și la
distanță cu cele ale unui lot de control.
Material și metode: Studiul a inclus 375 pacienți supuși tratamentului chirurgical în Spitalul Clinic Regional Celiabinsk în perioada
anilor 2012-2018. În lotul I (208 bolnavi) EAEC prin eversiune s-a efectuat conform tehnicii standard. În lotul II (167 pacienți) s-a
practicat EAEC modificată, cu prezervarea sinusului. Loturile au fost comparabile în funcție de vârstă, gen, statutul neurologic și
hipertensiv inițial, utilizarea șuntului temporar, timpul de clampaj al ACI și gradul leziunii arteriale carotidiene contralaterale. Pe lângă
înregistrarea parametrilor hemodinamici comuni, a fost evaluată și activitatea vegetativă în baza analizei prospective a variabilității
frecvenței cardiace utilizând ritmocardiografia. La etapa de follow-up, parametrii hemodinamici au fost evaluați la 103 pacienți: cu
păstrarea nervilor sinusului carotidian (39) și după secționarea acestora (64).
Rezultate: În prima zi atât presiunea sistolică, diastolică, cât și presiunea pulsului, precum și frecvența cardiacă au fost mai reduse la
bolnavii după EAEC cu prezervarea sinusului în comparație cu lotul de control. În plus, diminuarea influenței simpatice asupra ritmului
conform ritmocardiografiei a fost notabilă. La pacienții operați cu prezervarea nervilor sinusului carotidian elevarea tensiunii arteriale s-a atestat mai rar, iar doza necesară de remedii antihipertensive a fost mai mică.
Concluzii: S-au constatat diferențe semnificative dintre parametrii, evaluați precoce și la distanță, ai hemodinamicii arteriale
postoperatorii și reglării vegetative a tonusului vascular, în funcție de prezervarea nervilor sinusului carotidian. Practicarea EAEC prin
eversiune cu prezervarea sinusului carotid reduce riscul complicațiilor postoperatorii cauzate de dereglările vegetative.Introduction: Carotid endarterectomy (CEAE) has proven its advantage in correcting hemodynamically significant stenoses of the
internal carotid arteries (ICA). The eversion technique is the most popular, but with its standard procedure, traumatization of carotid
sinus nerves occurs, which has a negative effect on the vegetative regulation of vascular tonus and hemodynamics.
Aim: To evaluate the effectiveness of eversional CEAE with preservation of carotid sinus nerves, by comparing of early and long-term
results with a control group of patients.
Materials and methods: The study included 375 patients treated surgically at the Chelyabinsk Regional Clinical Hospital from 2012
to 2018. In the first group (208 patients), eversional CEAE was performed according to standard technique. In the second group (167
patients), a sinus-preserving modification of CEAE was applied. The groups were comparable by age, sex, baseline neurological
status, baseline hypertension, use of a temporary shunt, ICA cross-clamping time, and degree of contralateral lesion of the carotid
arteries. In addition to common hemodynamic parameters, mediator vegetative activity evaluated based on a prospective analysis
of heart rate variability using rhythmocardiography. In the follow-up period, hemodynamic parameters assessed in 103 patients: with
preservation of the carotid sinus nerves (39) and after their transection (64).
Results: On the 1st day, systolic, diastolic and pulse blood pressure, as well as a heart rate were lower in patients after sinuspreserving CEAE as compared with the control group. In addition, a decrease in sympathetic pressure effect on the rhythm according
to rhythmocardiography was noticeable. In patients operated with the preservation of carotid sinus nerves, an increased blood pressure
is less common and they require a lower dosage of antihypertensive drugs.
Conclusions: There are significant differences between early and distant parameters of postoperative arterial hemodynamics and
vegetative regulation of vascular tonus, depending on preservation of the carotid sinus nerves. Practical application of sinus- preserving
eversional CEAE reduces the risk of postoperative complications due to vegetative dysregulation
Paraxial propagation in amorphous optical media with screw dislocation
We study paraxial beam propagation parallel to the screw axis of a dislocated
amorphous medium that is optically weakly inhomogeneous and isotropic. The
effect of the screw dislocation on the beam's orbital angular momentum is shown
to change the optical vortex strength, rendering vortex annihilation or
generation possible. Furthermore, the dislocation is shown to induce a weak
\textit{biaxial} anisotropy in the medium due to the elasto-optic effect, which
changes the beam's spin angular momentum as well as causing precession of the
polarization. We derive the equations of motion of the beam and demonstrate the
optical Hall effect in the dislocated medium. Its application with regard to
determining the Burgers vector as well as the elasto-optic coefficients of the
medium is explained
Paraxial spin transport using the Dirac-like paraxial wave equation
In weakly inhomogeneous media, Maxwell equations assume a Dirac-like form
that is particularly apt for the study of paraxial propagation. Using this
form, and via the Foldy-Wouthuysen transformation technique of the Dirac
equation, we study the spin transport of paraxial light beams in weakly
inhomogeneous media. We derive the Berry effect terms and establish the spin
Hall effect and the Rytov rotation law for polarized paraxial beam transport.Comment: To appear in Phys. Lett. A (2010
Transverse Shifts in Paraxial Spinoptics
The paraxial approximation of a classical spinning photon is shown to yield
an "exotic particle" in the plane transverse to the propagation. The previously
proposed and observed position shift between media with different refractive
indices is modified when the interface is curved, and there also appears a
novel, momentum [direction] shift. The laws of thin lenses are modified
accordingly.Comment: 3 pages, no figures. One detail clarified, some misprints corrected
and references adde
Writhing Photons and Berry Phases in Diffusive Wave Scattering
We study theoretically the polarization state of light in multiple scattering
media in the limit of weak gradients in refractive index. Linearly polarized
photons are randomly rotated due to the Berry phase associated with the
scattering path. For circularly polarized light independent speckle patterns
are found for the two helical states. The statistics of the geometric phase is
related to the writhe distribution of semiflexible polymers such as DNA.Comment: 4 pages, 1 figur
Guiding Neutral Atoms with a Wire
We demonstrate guiding of cold neutral atoms along a current carrying wire.
Atoms either move in Kepler-like orbits around the wire or are guided in a
potential tube on the side of the wire which is created by applying an
additional homogeneous bias field. These atom guides are very versatile and
promising for applications in atom optics.Comment: 4 pages, 6 figures, submitted to PR
Atom Chips
Atoms can be trapped and guided using nano-fabricated wires on surfaces,
achieving the scales required by quantum information proposals. These Atom
Chips form the basis for robust and widespread applications of cold atoms
ranging from atom optics to fundamental questions in mesoscopic physics, and
possibly quantum information systems
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