4,090 research outputs found
Bootstrapping 2D CFTs in the Semiclassical Limit
We study two dimensional conformal field theories in the semiclassical limit.
In this limit, the four-point function is dominated by intermediate primaries
of particular weights along with their descendants, and the crossing equations
simplify drastically. For a four-point function receiving sufficiently small
contributions from the light primaries, the structure constants involving heavy
primaries follow a universal formula. Applying our results to the four-point
function of the twist field in the symmetric product orbifold, we
produce the Hellerman bound and the logarithmically corrected Cardy formula
that is valid for .Comment: 32 pages, 7 figures. v2, v3: references added, minor clarification
Carving Out the End of the World or (Superconformal Bootstrap in Six Dimensions)
We bootstrap superconformal field theories in six
dimensions, by analyzing the four-point function of flavor current multiplets.
Assuming flavor group, we present universal bounds on the central charge
and the flavor central charge . Based on the numerical data, we
conjecture that the rank-one E-string theory saturates the universal lower
bound on , and numerically determine the spectrum of long multiplets in
the rank-one E-string theory. We comment on the possibility of solving the
higher-rank E-string theories by bootstrap and thereby probing M-theory on
AdS/.Comment: 59 pages, 10 figures, 4 tables; v2-v5: typos corrected, references
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Romans Supergravity from Five-Dimensional Holograms
We study five-dimensional superconformal field theories and their holographic
dual, matter-coupled Romans supergravity. On the one hand, some recently
derived formulae allow us to extract the central charges from deformations of
the supersymmetric five-sphere partition function, whose large N expansion can
be computed using matrix model techniques. On the other hand, the conformal and
flavor central charges can be extracted from the six-dimensional supergravity
action, by carefully analyzing its embedding into type I' string theory. The
results match on the two sides of the holographic duality. Our results also
provide analytic evidence for the symmetry enhancement in five-dimensional
superconformal field theories.Comment: 57 pages, 4 figures, 6 tables; v2: references adde
Process nano scale mechanical properties measurement of thin metal films using a novel paddle cantilever test structure
A new technique was developed for studying the mechanical behavior of
nano-scale thin metal films on substrate is presented. The test structure was
designed on a novel "paddle" cantilever beam specimens with dimensions as few
hundred nanometers to less than 10 nanometers. This beam is in triangle shape
in order to provide uniform plane strain distribution. Standard clean room
processing was used to prepare the paddle sample. The experiment can be
operated by using the electrostatic deflection on the paddle uniform
distributed stress cantilever beam and then measure the deposited thin metal
film materials on top of it. A capacitance technique was used to measurement on
the other side of the deflected plate to measure its deflection with respect to
the force. The measured strain was converted through the capacitance
measurement for the deflection of the cantilever. System performance on the
residual stress measurement of thin films are calculated with three different
forces on the "paddle" cantilever beam, including the force due to the film,
compliance force and electrostatic force.Comment: Submitted on behalf of EDA Publishing Association
(http://irevues.inist.fr/handle/2042/16838
Words to describe a black hole
We revamp the constructive enumeration of 1/16-BPS states in the maximally
supersymmetric Yang-Mills in four dimensions, and search for ones that are not
of multi-graviton form. A handful of such states are found for gauge group
SU(2) at relatively high energies, resolving a decade-old enigma. Along the
way, we clarify various subtleties in the literature, and prove a
non-renormalization theorem about the exactness of the cohomological
enumeration in perturbation theory. We point out a giant-graviton-like feature
in our results, and envision that a deep analysis of our data will elucidate
the fundamental properties of black hole microstates.Comment: 13 pages, 2 figures, 5 tables; v2, v3: minor revisions, references
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