12,967 research outputs found
Discretizing Gravity in Warped Spacetime
We investigate the discretized version of the compact Randall-Sundrum model.
By studying the mass eigenstates of the lattice theory, we demonstrate that for
warped space, unlike for flat space, the strong coupling scale does not depend
on the IR scale and lattice size. However, strong coupling does prevent us from
taking the continuum limit of the lattice theory. Nonetheless, the lattice
theory works in the manifestly holographic regime and successfully reproduces
the most significant features of the warped theory. It is even in some respects
better than the KK theory, which must be carefully regulated to obtain the
correct physical results. Because it is easier to construct lattice theories
than to find exact solutions to GR, we expect lattice gravity to be a useful
tool for exploring field theory in curved space.Comment: 17 pages, 4 figures; references adde
A 5-Dimensional Spherical Symmetric Solution in Einstein-Yang-Mills Theory With Gauss-Bonnet Term
We present a numerical solution on a 5-dimensional spherically symmetric
space time, in Einstein-Yang-Mills-Gauss-Bonnet theory using a two point
boundary value routine. It turns out that the Gauss-Bonnet contribution has a
profound influence on the behaviour of the particle-like solution: it increases
the number of nodes of the YM field. When a negative cosmological constant in
incorporated in the model, it turns out that there is no horizon and no
singular behaviour of the model. For positive cosmological constant the model
has singular behaviour.Comment: 7 pages, 6 figure
Computer program to calculate three-dimensional boundary layer flows over wings with wall mass transfer
A system of computer programs for calculating three dimensional transonic flow over wings, including details of the three dimensional viscous boundary layer flow, was developed. The flow is calculated in two overlapping regions: an outer potential flow region, and a boundary layer region in which the first order, three dimensional boundary layer equations are numerically solved. A consistent matching of the two solutions is achieved iteratively, thus taking into account viscous-inviscid interaction. For the inviscid outer flow calculations, the Jameson-Caughey transonic wing program FLO 27 is used, and the boundary layer calculations are performed by a finite difference boundary layer prediction program. Interface programs provide communication between the two basic flow analysis programs. Computed results are presented for the NASA F8 research wing, both with and without distributed surface suction
Is there the radion in the RS2 model ?
We analyse the physical boundary conditions at infinity for metric
fluctuations and gauge functions in the RS2 model with matter on the brane. We
argue that due to these boundary conditions the radion field cannot be gauged
out in this case. Thus, it represents a physical degree of freedom of the
model.Comment: 9 page
Developments in British banking: lessons for regulation and supervision
Banks and banking - Great Britain ; Great Britain
The embedding of the spacetime in five dimensions: an extension of Campbell-Magaard theorem
We extend Campbell-Magaard embedding theorem by proving that any
n-dimensional semi-Riemannian manifold can be locally embedded in an
(n+1)-dimensional Einstein space. We work out some examples of application of
the theorem and discuss its relevance in the context of modern
higher-dimensional spacetime theories.Comment: 22pages, Revte
The Western regional economy
Federal Reserve District, 12th ; Economic conditions - West (U.S.)
Taxpayer risk in mortgage policy
Government-sponsored enterprises ; Federal National Mortgage Association ; Mortgages ; Asset-backed financing
1-loop matching and NNLL resummation for all partonic 2 to 2 processes in QCD
The Wilson Coefficients for all 4-parton operators which arise in matching
QCD to Soft-Collinear Effective Theory (SCET) are computed at 1-loop. Any dijet
observable calculated in SCET beyond leading order will require these results.
The Wilson coefficients are separated by spin and color, although most
applications will involve only the spin-averaged hard functions. The anomalous
dimensions for the Wilson coefficients are given to 2-loop order, and the
renormalization group equations are solved explicitly. This will allow for
analytical resummation of dijet observables to next-to-next-to-leading
logarithmic accuracy. For each channel, there is a natural basis in which the
evolution is diagonal in color space. The same basis also diagonalizes the
color evolution for the soft function. Even though soft functions required for
SCET calculations are observable dependent, it is shown that their
renormalization group evolution is almost completely determined by a universal
structure. With these results, it will be possible to calculate hadronic event
shapes or other dijet observables to next-to-leading order with
next-to-next-to-leading log resummation.Comment: 28 pages, 5 tables; v2: typo corrected in Eq. (56
- …