124 research outputs found
Synoptic-scale to mesoscale atmospheric circulation connects fluvial and coastal gravel conveyors and directional deposition of coastal landforms in the Dead Sea basin
Streams convey coarse-clastic sediments towards coasts, where interactions with deltaic and coastal processes determine their resultant sedimentology and geomorphology. Extracting hydroclimatic signals from such environments is a desired goal, and therefore studies commonly rely on interpreting available paleoclimatic proxy data, but the direct linking of depositional and geomorphic processes with the hydroclimate remains obscure. This is a consequence of the challenge of linking processes that are often studied separately and span across large spatial and temporal scales, including synoptic-scale hydroclimatic forcing, streamflows, water body hydrodynamics, fluvial and coastal sediment transport, and sedimentation.
Here, we explore this chain of connected processes in the unique setting of
the Dead Sea basin, where present-day hydroclimatology is closely tied with
geomorphic evolution and sediment transport of streams and coasts that
rapidly respond to lake-level fall. We use a 5-year (2018â2022)
rich dataset of (i)Â high-resolution synoptic-scale circulation patterns,
(ii)Â continuous wind-wave and rainâflood records, and (iii)Â storm-scale
fluvial and coastal sediment transport of âsmartâ and marked boulders. We
show the significance of Mediterranean cyclones in the concurrent activation of fluvial (floods) and coastal (wind waves) sediment conveyors. These synoptic-scale patterns drive the westerlies necessary for (i)Â delivering the moisture across the Judean desert, which is transformed into floods, and at the same time, (ii)Â the coeval, topographically funneled winds that turn into surface southerlies (>10âmâsâ1) along the Dead Sea rift valley. During winter, these mesoscale southerlies generate 10â30Â high-amplitude, northward-propagating storm waves, with <4âm wave heights. Such waves transport cobbles for hundreds of meters alongshore, northward and away from the supplying channel mouths. Four to nine times per winter the rainfall generated by these atmospheric patterns is capable of generating floods that reach the stream mouths, delivering poorly sorted, coarse gravel. This usually occurs during the decay of the associated storm waves. This gravel is dispersed alongshore by waves during subsequent storms. As storm waves dominate and are >5Â times more frequent than flash floods, coarse-clastic beach berms and fan deltas are deposited preferentially north of the delivering channel mouths. This asymmetric depositional architecture, controlled by the regional hydroclimatology, is identified for both the modern and late Pleistocene coast and delta environments, implying that the dominance of present-day Mediterranean cyclones also persisted in the region during the late Pleistocene when Lake Lisan occupied the basin.</p
Two-pion-exchange contributions to the pp\to pp\pi^0 reaction
Our previous study of the near-threshold pp\to pp\pi^0 reaction based on a
hybrid nuclear effective field theory is further elaborated by examining the
momentum dependence of the relevant transition operators. We show that the
two-pion exchange diagrams give much larger contributions than the one-pion
exchange diagram, even though the former is of higher order in the Weinberg
counting scheme. The relation between our results and an alternative counting
scheme, the momentum counting scheme, is also discussed.Comment: 11 pages, minor change, a few references are adde
Stable branches of a solution for a fermion on domain wall
We discuss the case when a fermion occupies an excited non-zero frequency
level in the field of domain wall. We demonstrate that a solution exists for
the coupling constant in the limited interval . We
show that indeed there are different branches of stable solution for in
this interval. The first one corresponds to a fermion located on the domain
wall (). The second branch, which belongs to the interval
, describes a polarized fermion off the domain
wall. The third branch with describes an excited antifermion in
the field of the domain wall.Comment: 15 pages, 7 figures, references adde
Perturbative approach to the hydrogen atom in strong magnetic field
The states of hydrogen atom with principal quantum number n <= 3 and zero
magnetic quantum number in constant homogeneous magnetic field H are
considered. The perturbation theory series is summed with the help of Borel
transformation and conformal mapping of the Borel variable. Convergence of
approximate energy eigenvalues and their agreement with corresponding existing
results are observed for external fields up to n^3 H ~ 5. The possibility of
restoring the asymptotic behaviour of energy levels using perturbation theory
coefficients is also discussed.Comment: LaTeX, 8 pages with 5 eps figure
Towards a high precision calculation for the pion-nucleus scattering lengths
We calculate the leading isospin conserving few-nucleon contributions to pion
scattering on H, He, and He. We demonstrate that the strong
contributions to the pion-nucleus scattering lengths can be controlled
theoretically to an accuracy of a few percent for isoscalar nuclei and of 10%
for isovector nuclei. In particular, we find the -He scattering length
to be where the uncertainties are
due to ambiguities in the -N scattering lengths and few-nucleon effects,
respectively. To establish this accuracy we need to identify a suitable power
counting for pion-nucleus scattering. For this purpose we study the dependence
of the two-nucleon contributions to the scattering length on the binding energy
of H. Furthermore, we investigate the relative size of the leading two-,
three-, and four-nucleon contributions. For the numerical evaluation of the
pertinent integrals, aMonte Carlo method suitable for momentum space is
devised. Our results show that in general the power counting suggested by
Weinberg is capable to properly predict the relative importance of -nucleon
operators, however, it fails to capture the relative strength of - and
-nucleon operators, where we find a suppression by a factor of 5
compared to the predicted factor of 50. The relevance for the extraction of the
isoscalar -N scattering length from pionic H and He is discussed.
As a side result, we show that beyond the calculation of the -H
scattering length is already beyond the range of applicability of heavy pion
effective field theory.Comment: 24 pages, 14 figures, 10 table
Chiral perturbation theory calculation for pn -> dpipi at threshold
We investigate the reaction pn -> dpipi in the framework of Chiral
Perturbation Theory. For the first time a complete calculation of the leading
order contributions is presented. We identify various diagrams that are of
equal importance as compared to those recognized in earlier works. The diagrams
at leading order behave as expected by the power counting. Also for the first
time the nucleon-nucleon interaction in the initial, intermediate and final
state is included consistently and found to be very important. This study
provides a theoretical basis for a controlled evaluation of the non-resonant
contributions in two-pion production reactions in nucleon-nucleon collisions.Comment: 24 pages, 3 figures, 3 table
Gate-tunable Topological Valley Transport in Bilayer Graphene
Valley pseudospin, the quantum degree of freedom characterizing the
degenerate valleys in energy bands, is a distinct feature of two-dimensional
Dirac materials. Similar to spin, the valley pseudospin is spanned by a time
reversal pair of states, though the two valley pseudospin states transform to
each other under spatial inversion. The breaking of inversion symmetry induces
various valley-contrasted physical properties; for instance, valley-dependent
topological transport is of both scientific and technological interests.
Bilayer graphene (BLG) is a unique system whose intrinsic inversion symmetry
can be controllably broken by a perpendicular electric field, offering a rare
possibility for continuously tunable valley-topological transport. Here, we
used a perpendicular gate electric field to break the inversion symmetry in
BLG, and a giant nonlocal response was observed as a result of the topological
transport of the valley pseudospin. We further showed that the valley transport
is fully tunable by external gates, and that the nonlocal signal persists up to
room temperature and over long distances. These observations challenge
contemporary understanding of topological transport in a gapped system, and the
robust topological transport may lead to future valleytronic applications
Effective Field Theory and the Gamow Shell Model: The 6He Halo Nucleus
We combine Halo/Cluster Effective Field Theory (H/CEFT) and the Gamow Shell
Model (GSM) to describe the ground state of as a three-body
halo system. We use two-body interactions for the neutron-alpha particle and
two-neutron pairs obtained from H/CEFT at leading order, with parameters
determined from scattering in the p and s channels, respectively.
The three-body dynamics of the system is solved using the GSM formalism, where
the continuum states are incorporated in the shell model valence space. We find
that in the absence of three-body forces the system collapses, since the
binding energy of the ground state diverges as cutoffs are increased. We show
that addition at leading order of a three-body force with a single parameter is
sufficient for proper renormalization and to fix the binding energy to its
experimental value
Two Major Medicinal Honeys Have Different Mechanisms of Bactericidal Activity
Honey is increasingly valued for its antibacterial activity, but knowledge regarding the mechanism of action is still incomplete. We assessed the bactericidal activity and mechanism of action of RevamilÂź source (RS) honey and manuka honey, the sources of two major medical-grade honeys. RS honey killed Bacillus subtilis, Escherichia coli and Pseudomonas aeruginosa within 2 hours, whereas manuka honey had such rapid activity only against B. subtilis. After 24 hours of incubation, both honeys killed all tested bacteria, including methicillin-resistant Staphylococcus aureus, but manuka honey retained activity up to higher dilutions than RS honey. Bee defensin-1 and H2O2 were the major factors involved in rapid bactericidal activity of RS honey. These factors were absent in manuka honey, but this honey contained 44-fold higher concentrations of methylglyoxal than RS honey. Methylglyoxal was a major bactericidal factor in manuka honey, but after neutralization of this compound manuka honey retained bactericidal activity due to several unknown factors. RS and manuka honey have highly distinct compositions of bactericidal factors, resulting in large differences in bactericidal activity
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