11,755 research outputs found
Tidal Forcing in IcyâSatellite Oceans Drives Mean Circulation and IceâShell Torques
Tidal forces generate timeâvarying currents in bodies with fluid layers, such as the icy ocean moons of the outer solar system. The expectation has been that tidal currents are periodicâthey average to zero over a forcing periodâso that they are not associated with a mean flow. This expectation arises from the assumption of linearity. Here, we relax this assumption and develop a theory that predicts the emergence of mean currents driven by any periodic forcing. The theory, derived in the context of a global, uniform, shallow ocean, constitutes a set of mean flow equations forced by nonâlinear eddy fluctuations. The latter are the canonical, periodic tidal currents predicted by the Laplace Tidal equations. We show that the degreeâ2 tideâraising potential due to obliquity and/or orbital eccentricity can drive timeâaveraged currents with zonal wavenumbers from 0 to 4. The most prominent of these is a retrograde zonal jet driven by the obliquityâforcing potential. Assuming Cassini state obliquities, this jet has speeds ranging from 0.01 to 1 mm sâ1, which can exert torques up to roughly 1015 N m at the iceâocean interfaces of Europa, Callisto, Titan, and Triton. Depending on the viscosity of the ice shell, these torques could drive ice shell drift rates of tens to potentially hundreds of meters a year. Thinner or stably stratified global oceans can experience much faster mean currents
Powering the Galilean Satellites with Moon-Moon Tides
There is compelling evidence for subsurface water oceans among the three
outer Galilean satellites, and evidence for an internal magma ocean in the
innermost moon, Io. Tidal forces from Jupiter periodically deform these bodies,
causing heating and deformation that, if measured, can probe their interior
structures. In addition to Jupiter-raised tides, each moon also raises tides on
the others. We investigate moon-moon tides for the first time in the Galilean
moons, and show that they can cause significant heating through the excitation
of high-frequency resonant tidal waves in their subsurface oceans. The heating
occurs both in the crust and ocean, and can exceed that of other tidal sources
and radiogenic decay if the ocean is inviscid enough. The resulting tidal
deformation can be used to constrain subsurface ocean thickness. Our
understanding of the thermal-orbital evolution and habitability of the Jovian
system may be fundamentally altered as a result
The Association between Partnership Financial Integration and Risky Audit Client Portfolios
This study examines whether profit-sharing arrangements within accounting firms are associated with the riskiness of their client portfolios. Our results use unique data about the profit-sharing arrangements of the Big 8 firms during the period 1985 to 1994. We investigate whether there is a correlation between profit-sharing and risky clients. Firms consist of the financially integrated firms, i.e., those that share their profits across a large pool of partners across the country and the financially independent firms that share their profits in a small pool on a local office basis. The large-pool firms provide more incentive for partners to cooperate to audit high-risk clients than the small-pool firms. Our results show that the large-pool firms are associated with riskier client portfolios; this is indicated by a higher proportion of fees from clients that later suffer from bankruptcies. In contrast, a smaller proportion of the clients of the small-pool firms go bankrupt. Tests using financial distress as alternative measures of client risk confirm this result
Ocean tidal heating in icy satellites with solid shells
As a long-term energy source, tidal heating in subsurface oceans of icy
satellites can influence their thermal, rotational, and orbital evolution, and
the sustainability of oceans. We present a new theoretical treatment for tidal
heating in thin subsurface oceans with overlying incompressible elastic shells
of arbitrary thickness. The stabilizing effect of an overlying shell damps
ocean tides, reducing tidal heating. This effect is more pronounced on
Enceladus than on Europa because the effective rigidity on a small body like
Enceladus is larger. For the range of likely shell and ocean thicknesses of
Enceladus and Europa, the thin shell approximation of Beuthe (2016) is
generally accurate to less than about 4%.The time-averaged surface distribution
of ocean tidal heating is distinct from that due to dissipation in the solid
shell, with higher dissipation near the equator and poles for eccentricity and
obliquity forcing respectively. This can lead to unique horizontal shell
thickness variations if the shell is conductive. The surface displacement
driven by eccentricity and obliquity forcing can have a phase lag relative to
the forcing tidal potential due to the delayed ocean response. For Europa and
Enceladus, eccentricity forcing generally produces greater tidal amplitudes due
to the large eccentricity values relative to the obliquity values. Despite the
small obliquity values, obliquity forcing generally produces larger phase lags
due to the generation of Rossby-Haurwitz waves. If Europa's shell and ocean are
respectively 10 and 100 km thick, the tide amplitude and phase lag are 26.5 m
and degree for eccentricity forcing, and m and degrees for
obliquity forcing. Measurement of the obliquity phase lag (e.g. by Europa
Clipper) would provide a probe of ocean thicknessComment: Icarus, accepted for publicatio
First direct observation of two protons in the decay of Fe with a TPC
The decay of the ground-state two-proton emitter 45Fe was studied with a
time-projection chamber and the emission of two protons was unambiguously
identified. The total decay energy and the half-life measured in this work
agree with the results from previous experiments. The present result
constitutes the first direct observation of the individual protons in the
two-proton decay of a long-lived ground-state emitter. In parallel, we
identified for the first time directly two-proton emission from 43Cr, a known
beta-delayed two-proton emitter. The technique developped in the present work
opens the way to a detailed study of the mechanism of ground-state as well as
beta-delayed two-proton radioactivity.Comment: 4 pages, 5 figure
Weighing the Milky Way
We describe an experiment to measure the mass of the Milky Way galaxy. The
experiment is based on calculated light travel times along orthogonal
directions in the Schwarzschild metric of the Galactic center. We show that the
difference is proportional to the Galactic mass. We apply the result to light
travel times in a 10cm Michelson type interferometer located on Earth. The mass
of the Galactic center is shown to contribute 10^-6 to the flat space component
of the metric. An experiment is proposed to measure the effect.Comment: 10 pages, 1 figur
Scattering length of the ground state Mg+Mg collision
We have constructed the X 1SIGMAg+ potential for the collision between two
ground state Mg atoms and analyzed the effect of uncertainties in the shape of
the potential on scattering properties at ultra-cold temperatures. This
potential reproduces the experimental term values to 0.2 inverse cm and has a
scattering length of +1.4(5) nm where the error is prodominantly due to the
uncertainty in the dissociation energy and the C6 dispersion coefficient. A
positive sign of the scattering length suggests that a Bose-Einstein condensate
of ground state Mg atoms is stable.Comment: 15 pages, 3 figures, Submitted Phys. Rev.
International capital mobility in an era of globalisation: adding a political dimension to the 'FeldsteinâHorioka Puzzle'
The debate about the scope of feasible policy-making in an era of globalisation continues to be set within the context of an assumption that national capital markets are now perfectly integrated at the international level. However, the empirical evidence on international capital mobility contradicts such an assumption. As a consequence, a significant puzzle remains. Why is it, in a world in which the observed pattern of capital flows is indicative of a far from globalised reality, that public policy continues to be constructed in line with more extreme variants of the globalisation hypothesis? I attempt to solve this puzzle by arguing that ideas about global capital market integration have an independent causal impact on political outcomes which extends beyond that which can be attributed to the extent of their actual integration
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