12,705 research outputs found
Flux-Periodicity Crossover from hc/e in Normal Metallic to hc/2e in Superconducting Loops
The periodic response of a metallic or a superconducting ring to an external
magnetic flux is one of the most evident manifestations of quantum mechanics.
It is generally understood that the oscillation period hc/2e in the
superconducting state is half the period hc/e in the metallic state, because
the supercurrent is carried by Cooper pairs with a charge 2e. On the basis of
the Bardeen-Cooper-Schrieffer theory we discuss, in which cases this simple
interpretation is valid and when a more careful analysis is needed. In fact,
the knowledge of the oscillation period of the current in the ring provides
information on the electron interactions. In particular, we analyze the
crossover from the hc/e periodic normal current to the hc/2e periodic
supercurrent upon turning on a pairing interaction in a metal ring. Further, we
elaborate on the periodicity crossover when cooling a metallic loop through the
superconducting transition temperature Tc.Comment: To be bublished in "Superconductors", InTech (Rijeka), 2012 (ISBN
979-953-307-798-6
Matched filter for multi-transducers resonant GW antennas
We analyze two kinds of matched filters for data output of a spherical
resonant GW detector. In order to filter the data of a real sphere, a strategy
is proposed, firstly using an omnidirectional in-line filter, which is supposed
to select periodograms with excitations, secondly by performing a directional
filter on such selected periodograms, finding the wave arrival time, direction
and polarization. We point out that, as the analytical simplifications
occurring in the ideal 6 transducers TIGA sphere do not hold for a real sphere,
using a 5 transducers configuration could be a more convenient choice.Comment: 15 pages and 4 figures, version accepted for publication in PR
Superconductivity with Finite-Momentum Pairing in Zero Magnetic Field
In the BCS theory of superconductivity, one assumes that all Cooper pairs
have the same center of mass momentum. This is indeed enforced by self
consistency, if the pairing interaction is momentum independent. Here, we show
that for an attractive nearest neighbor interaction, this is different. In this
case, stable solutions with pairs with momenta q and -q coexist and, for a
sufficiently strong interaction, one of these states becomes the groundstate of
the superconductor. This finite-momentum pairing state is accompanied by a
charge order with wave vector 2q. For a weak pairing interaction, the
groundstate is a d-wave superconductor
Fractional Flux Quantization in Loops of Unconventional Superconductors
The magnetic flux threading a conventional superconducting ring is typically
quantized in units of . The factor 2 in the denominator of
originates from the existence of two different types of pairing states
with minima of the free energy at even and odd multiples of . Here we
show that spatially modulated pairing states exist with energy minima at
fractional flux values, in particular at multiples of . In such
states condensates with different center-of-mass momenta of the Cooper pairs
coexist. The proposed mechanism for fractional flux quantization is discussed
in the context of cuprate superconductors, where flux periodicities as
well as uniaxially modulated superconducting states were observed.Comment: 5 pages, 3 figure
Momentum-Space Spin Texture in a Topological Superconductor
A conventional superconductor with spin-orbit coupling turns into a
topological superconductor beyond a critical strength of the Zeeman energy. The
spin-expectation values in momentum space trace this
transition via a characteristic change in the topological character of the spin
texture within the Brillouin zone. At the transition the skyrmion counting
number switches from 0 to 1/2 identifying the topological superconductor via
its meron-like spin texture. The change in the skyrmion counting number is
crucially controlled by singular points of the map
from the Brillouin zone, i.e.
a torus, to the unit sphere. The complexity of this spin-map is discussed at
zero temperature as well as for the extension to finite temperatures.Comment: 16 pages, 9 figure
Polarized semi-inclusive electroweak structure functions at next-to-leading-order
We present a next-to-leading order (NLO) computation of the full set of
polarized and unpolarized electroweak semi-inclusive DIS (SIDIS) structure
functions, whose knowledge is crucial for a precise extraction of polarized
parton distributions. We focus on the phenomenology of the polarized structure
functions for the kinematical conditions that could be reached in an
Electron-Ion-Collider.
We show that the NLO corrections are sizeable, particularly in the small-
range. We test the sensitivity of these structure functions on certain quark
distributions and compare it to the situation of inclusive DIS and
electromagnetic SIDIS.Comment: 17 pages, 5 figure
Threshold resummation for the prompt-photon cross section revisited
We study the resummation of large logarithmic perturbative corrections to the
partonic cross sections relevant for the process pp->gamma X at high transverse
momentum of the photon.These corrections arise near the threshold for the
partonic reaction and are associated with soft-gluon emission. We especially
focus on the resummation effects for the contribution to the cross section
where the photon is produced in jet fragmentation. Previous calculations in
perturbation theory at fixed-order have established that this contribution is a
subdominant part of the cross section. We find, however, that it is subject to
much larger resummation effects than the direct (non-fragmentation) piece and
therefore appears to be a significant contribution in the fixed-target regime,
not much suppressed with respect to the direct part. Inclusion of threshold
resummation for the fragmentation piece leads to some improvement in
comparisons between theoretical calculations and experimental data.Comment: 12 pages, 5 figure
Break in the VHE spectrum of PG 1553+113: new upper limit on its redshift?
PG 1553+113 is a known BL Lac object, newly detected in the GeV-TeV energy
range by H.E.S.S and MAGIC. The redshift of this source is unknown and a lower
limit of was recently estimated. The very high energy (VHE) spectrum
of PG 1553+113 is attenuated due to the absorption by the low energy photon
field of the extragalactic background light (EBL). Here we correct the combined
H.E.S.S and MAGIC spectrum of PG 1553+113 for this absorption assuming a
minimum density of the evolving EBL. We use an argument that the intrinsic
photon index cannot be harder than and derive an upper limit on
the redshift of . Moreover, we find that a redshift above
implies a possible break of the intrinsic spectrum at about 200 GeV. Assuming
that such a break is absent, we derive a much stronger upper limit of . Alternatively, this break might be attributed to an additional emission
component in the jet of PG 1553+113. This would be the first evidence for a
second component is detected in the VHE spectrum of a blazar.Comment: revised version submitted to Ap
Threshold Resummation for the Inclusive-Hadron Cross-Section in pp Collisions
We study the resummation of large logarithmic perturbative corrections to the
partonic cross sections relevant for the process pp->h X at high transverse
momentum of the hadron h. These corrections arise near the threshold for the
partonic reaction and are associated with soft-gluon emission. We perform the
resummation to next-to-leading logarithmic accuracy. We present numerical
results for the fixed-target regime and find enhancements over the
next-to-leading order cross section, which significantly improve the agreement
between theoretical predictions and data. We also apply the resummation for
RHIC kinematics and find that subleading terms appear to play a rather
important role here.Comment: 20 pages, 6 eps figures include
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