15,534 research outputs found
Leptoproduction of charm revisited
We calculate the energy--momentum distribution of the charmed quarks produced
in neutrino reactions on protons, quantifying the importance of mass and
current non--conservation effects. We study the strange and charm distributions
probed in neutrino interactions in the presently accessible kinematical region.
Some ambiguities inherent to the extraction of the parton densities from dimuon
data are pointed out.Comment: 9 pages, DFTT 72/9
Atomic Josephson vortex
We show that Josephson vortices in a quasi-1D atomic Bose Josephson junction
can be controllably manipulated by imposing a difference of chemical potentials
on the atomic BEC waveguides forming the junction. This effect, which has its
origin in the Berry phase structure of a vortex, turns out to be very robust in
the whole range of the parameters where such vortices can exist. We also
propose that a Josephson vortex can be created by the phase imprinting
technique and can be identified by a specific tangential feature in the
interference picture produced by expanding clouds released from the waveguides.Comment: 7 pages, 3 figures, revtex4, submitted to Phys. Rev. A, title and
abstract changed, old sections revised, new sections added, references adde
The Zeta Function Method and the Harmonic Oscillator Propagator
We show how the pre-exponential factor of the Feynman propagator for the
harmonic oscillator can be computed by the generalized -function method.
Besides, we establish a direct equivalence between this method and Schwinger's
propertime method.Comment: 12 latex pages, no figure
Observation of mesoscopic conductance fluctuations in YBaCuO grain boundary Josephson Junctions
Magneto-fluctuations of the normal resistance R_N have been reproducibly
observed in high critical temp erature superconductor (HTS) grain boundary
junctions, at low temperatures. We attribute them to mesoscopic transport in
narrow channels across the grain boundary line. The Thouless energy appears to
be the relevant energy scale. Our findings have significant implications on
quasiparticle relaxation and coherent transport in HTS grain boundaries.Comment: Revised version, minor changes. 4 pages, 4 figure
Non universality of structure functions and measurement of the strange sea density
We show that there is no real conflict between the two determinations of the
strange sea density from the opposite--sign dimuon production and from the
difference of the structure functions measured in neutrino and muon deep
inelastic scattering. Once non universal sea parton densities are introduced,
which take into account the effects of different mass thresholds and different
longitudinal contributions, the discrepancy is shown to disappear and both sets
of data are simultaneously well reproduced. No need for a large strange sea
content of the nucleon emerges.Comment: latex, DFTT-93-3
Localization of Gauge Fields and Monopole Tunnelling
We study the dynamical localization of a massless gauge field on a
lower-dimensional surface (2-brane). In flat space, the necessary and
sufficient condition for this phenomenon is the existence of confinement in the
bulk. The resulting configuration is equivalent to a dual Josephson junction.
This duality leads to an interesting puzzle, as it implies that a localized
massless theory, even in the Abelian case, must become confining at
exponentially large distances. Through the use of topological arguments we
clarify the physics behind this large-distance confinement and identify the
instantons of the brane world-volume theory that are responsible for its
appearance. We show that they correspond to the (condensed) bulk magnetic
charges (monopoles), that occasionally tunnel through the brane and induce weak
confinement of the brane theory. We consider the possible generalization of
this effect to higher dimensions and discuss phenomenological bounds on the
confinement of electric charges at exponentially large distances within our
Universe.Comment: 11 pages, 3 figures, improvements in the presentation, version to
appear in Physical Review
The Strange Quark Distribution
We discuss the latest CCFR determination of the strange sea density of the
proton. We comment on the differences with a previous, leading--order, result
and point out the relevance of quark mass effects and current non--conservation
effects. By taking them into account it is possible to solve the residual
discrepancy with another determination of the strange quark distribution. Two
important sources of uncertainties are also analyzed.Comment: 19page
Josephson interferometer in a ring topology as a symmetry prove of Sr_2RuO_4
The Josephson effect is theoretically studied in two types of SQUIDs
consisting of wave superconductor and SrRuO. Results show various
response of the critical Josephson current to applied magnetic fields depending
on the type of SQUID and on the pairing symmetries. In the case of a
wave symmetry, the critical current in a corner SQUID becomes an asymmetric
function of magnetic fields near the critical temperatures. Our results well
explain a recent experimental finding [Nelson et. al, Science \textbf{306},
1151 (2004)]. We also discuss effects of chiral domains on the critical
current.Comment: 7 page
Development Banks from the BRICS
The BRIC acronym was created at the beginning of the 2000s to represent a group of four
fast-growing economies â Brazil, Russia, India and China â and was changed to BRICS in
December 2010 with the inclusion of South Africa. At its fifth annual summit in Durban at the end of March 2013, the group announced the future establishment of a New Development Bank (NDB) to meet infrastructure investment needs in the developing world. At their sixth annual summit in Fortaleza the following year (July 2014), the BRICS finally agreed on the broader arrangements for the bank â an initial US100bn to be accessed to alleviate membersâ financial difficulties (US5bn from South Africa and US100bn with injections from non-BRICS states and institutions (up to a maximum capital share from non-BRICS countries of 45 per cent), most infrastructure needs in the developing world will remain unmet. Compared to the World Bank and Asian Development Bank â whose subscribed capital is US162bn respectively â the additional capital available from the NDB is too small to fill the financing gap (Spratt 2014). According to World Bank estimates, South Asia alone requires US4.5tn over the next five years for infrastructure development. In consideration of the limited amount of lending that the NDB may provide, the bank may create âspecial fundsâ â i.e. separately funded and managed mechanisms â designed to get round this capital constraint (Spratt 2014).UK Department for International Developmen
Measurement of the current-phase relation of superconducting atomic contacts
We have probed the current-phase relation of an atomic contact placed with a
tunnel junction in a small superconducting loop. The measurements are in
quantitative agreement with the predictions of a resistively shunted SQUID
model in which the Josephson coupling of the contact is calculated using the
independently determined transmissions of its conduction channels.Comment: to be published in Physical Review Letter
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