1,260 research outputs found
Logarithmic Correction to Newton Potential in Randall-Sundrum Scenario
Using a fixed-energy amplitude in Randall-Sundrum single brane scenario, we
compute the Newton potential on the brane. It is shown that the correction
terms to the Newton potential involve a logarithmic factor. Especially, when
the distance between two point masses are very small compared to radius,
the contribution of KK spectrum becomes dominant compared to the usual
inversely square law. This fact may be used to prove the existence of an extra
dimension experimentally.Comment: 7 pages, 1 figur
Supersphere
The spherical D2-brane solution is obtained without RR external background.
The solution is shown to preserve supersymmetries. The configurations
obtained depend on the integration constant . For the shape
of the solution is a deformed sphere. When, however, , the D2-brane
system seems to exhibit a brane-anti-brane configuration.Comment: 11 pages, 2 figure
Tunneling of Born-Infeld Strings to D2-Branes
A Born-Infeld theory describing a D2-brane coupled to a 4-form RR field
strength is considered, and the general solutions of the static and Euclidean
time equations are derived and discussed. The period of the bounce solutions is
shown to allow a consideration of tunneling and quantum-classical transitions
in the sphaleron region. The order of such transitions, depending on the
strength of the RR field strength, is determined. A criterion is then derived
to confirm these findings.Comment: 20 pages, 7 postscript figures, will appear in NP
General Criterion for the existence of Supertube and BIon in Curved Target Space
The supertube and BIon spike solutions are examined in a general curved
target space. The criteria for the existence of these solutions are explicitly
derived. Also the equation which the general BIon solution should satisfy is
derived.Comment: 12 pages, no figur
Propagator for spinless and spin-1/2 Aharonov-Bohm-Coulomb systems
The propagator of the spinless Aharonov-Bohm-Coulomb system is derived by
following the Duru-Kleinert method. We use this propagator to explore the
spin-1/2 Aharonov-Bohm-Coulomb system which contains a point interaction as a
Zeeman term. Incorporation of the self-adjoint extension method into the
Green's function formalism properly allows us to derive the finite propagator
of the spin-1/2 Aharonov-Bohm-Coulomb system. As a by-product, the relation
between the self-adjoint extension parameter and the bare coupling constant is
obtained. Bound-state energy spectra of both spinless and spin-1/2
Aharonov-Bohm-Coulomb systems are examined.Comment: Slightly changed, to appear in Annals of Physics. 18 pages, Late
Single 3-Brane Brane-World in Six Dimension
The single 3-brane brane world at six dimension is examined when the extra
dimensions are not compact. Although the warp factor diverges at the asymptotic
region of the extra dimension, the normalizable zero mode and higher KK
spectrum exist in the gravitational fluctuation. We compute the zero mode
analytically and KK spectrum numerically. It is explicitly proven that our
solution does not obey `brane world sum rule'.Comment: 16 pages, 1 figure, version to appear in NP
Winding Number Transitions in the Mottola-Wipf Model on a Circle
Winding number transitions from quantum to classical behavior are studied in
the case of the {1+1} dimensional Mottola-Wipf model with the space coordinate
on a circle for exploring the possibility of obtaining transitions of second
order. The model is also studied as a prototype theory which demonstrates the
procedure of such investigations. In the model at hand we find that even on a
circle the transitions remain those of first order.Comment: 17pages + 5 ps figures, final version to appear in Nucl. Phys.
D2-branes with magnetic flux in the presence of RR fields
D2-branes are studied in the context of Born-Infeld theory as a source of the
3-form RR gauge potential. Considering the static case with only a radial
magnetic field it is shown that a locally stable hemispherical deformation of
the brane exists which minimises the energy locally. Since the D2-brane carries
also the charge of D0-branes, and the RR spacetime potential is unbounded from
below, these can tunnel to condense on the D2-brane. The corresponding
instanton-like configuration and the tunneling rate are derived and discussed.Comment: 24 pages, 1 figure included, version to appear in NP
Newton Law in DGP Brane-World with Semi-Infinite Extra Dimension
Newton potential for DGP brane-world scenario is examined when the extra
dimension is semi-infinite. The final form of the potential involves a
self-adjoint extension parameter , which plays a role of an additional
mass (or distance) scale. The striking feature of Newton potential in this
setup is that the potential behaves as seven-dimensional in long range when
is nonzero. For small there is an intermediate range where
the potential is five-dimensional. Five-dimensional Newton constant decreases
with increase of from zero. In the short range the four-dimensional
behavior is recovered. The physical implication of this result is discussed in
the context of the accelerating behavior of universe.Comment: 13 pages, no figur
Spatial Compactification and Decay-Rate Behavior
The pahse transition from instanton-dominated quantum tunneling regime to
sphaleron-dominated classical crossover regime is explored in (1+1)-dimensional
scalar field theory when spatial coordinate is compactified. It is shown that
the type of sphaleron transition is critically dependent on the circumference
of the spatial coordinate.Comment: 12 pages, 6 postscript figures included, accepted version in PL
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