44,640 research outputs found
Lobbying-consistent Delegation and Sequential Policy Making
This paper studies the relationship between interest group political influence and allocation of decisionmaking power in a potentially divided government. We consider a simple endogenous policy model in which a legislator is in charge of setting the levels of two different policy instruments - a tax rate and a revenue redistribution scheme - and may decide to delegate policy authority over the allocation task to a bureaucracy within a hierarchy. An organized group is able to influence the political process at both tiers through the provision of policy-contingent contributions. We find conditions under which legislative delegation and sequential decisionmaking are consistent in equilibrium with the presence of two-tier lobbying, as the effects of the former on the allocation of lobbying activities exactly counterbalance the loss from bureaucracy's capture. As a consequence, we find that the possibility of multi-tier lobbying within a divided government need not be harmful to the higher level policy maker in the political equilibrium.Multi-tier lobbying; Multilevel governments; Delegation; Endogenous policy making
The role of fluid pressure in induced vs. triggered seismicity. Insights from rock deformation experiments on carbonates
Fluid overpressure is one of the primary mechanisms for tectonic fault slip, because fluids lubricate
the fault and fluid pressure reduces the effective normal stress that holds the fault in place. However,
current models of earthquake nucleation, based on rate- and state- friction laws, imply that stable
sliding is favoured by the increase of pore fluid pressure. Despite this controversy, currently, there are
only a few studies on the role of fluid pressure under controlled, laboratory conditions. Here, we use
laboratory experiments, to show that the rate- and state- friction parameters do change with increasing
fluid pressure. We tested carbonate gouges from sub hydrostatic to near lithostatic fluid pressure
conditions, and show that the friction rate parameter (a−b) evolves from velocity strengthening
to velocity neutral behaviour. Furthermore, the critical slip distance, Dc, decreases from about 90 to
10μm. Our data suggest that fluid overpressure plays an important role in controlling the mode of fault
slip. Since fault rheology and fault stability parameters change with fluid pressure, we suggest that a
comprehensive characterization of these parameters is fundamental for better assessing the role of
fluid pressure in natural and human induced earthquakes
Low energy solutions for singularly perturbed coupled nonlinear systems on a Riemannian manifold with boundary
Let (M,g) be asmooth, compact Riemannian manifold with smooth boundary, with
n= dim M= 2,3. We suppose the boundary of M to be a smooth submanifold of M
with dimension n-1. We consider a singularly perturbed nonlinear system, namely
Klein-Gordon-Maxwell-Proca system, or Klein-Gordon-Maxwell system of
Scrhoedinger-Maxwell system on M. We prove that the number of low energy
solutions, when the perturbation parameter is small, depends on the topological
properties of the boundary of M, by means of the Lusternik Schnirelmann
category. Also, these solutions have a unique maximum point that lies on the
boundary
Positive solutions for singularly perturbed nonlinear elliptic problem on manifolds via Morse theory
Given (M, g0) we consider the problem -{\epsilon}^2Delta_{g0+h}u + u =
(u+)^{p-1} with ({\epsilon}, h) \in (0, {\epsilon}0) \times B{\rho}. Here
B{\rho} is a ball centered at 0 with radius {\rho} in the Banach space of all
Ck symmetric covariant 2-tensors on M. Using the Poincar\'e polynomial of M, we
give an estimate on the number of nonconstant solutions with low energy for
({\epsilon}, h) belonging to a residual subset of (0, {\epsilon}0) \times
B{\rho}, for ({\epsilon}0, {\rho}) small enough
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