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Hypnotic Tactile Anesthesia: Psychophysical and Signal-Detection Analyses.
Two experiments that studied the effects of hypnotic suggestions on tactile sensitivity are reported. Experiment 1 found that suggestions for anesthesia, as measured by both traditional psychophysical methods and signal-detection procedures, were linearly related to hypnotizability. Experiment 2 employed the same methodologies in an application of the real-simulator paradigm to examine the effects of suggestions for both anesthesia and hyperesthesia. Significant effects of hypnotic suggestion on both sensitivity and bias were found in the anesthesia condition but not for the hyperesthesia condition. A new bias parameter, C', indicated that much of the bias found in the initial analyses was artifactual, a function of changes in sensitivity across conditions. There were no behavioral differences between reals and simulators in any of the conditions, though analyses of postexperimental interviews suggested the 2 groups had very different phenomenal experiences
Strongly Coupled Chameleon Fields: New Horizons in Scalar Field Theory
We show that as a result of non-linear self-interactions, scalar field
theories that couple to matter much more strongly than gravity are not only
viable but could well be detected by a number of future experiments, provided
these are properly designed to do so.Comment: 4 pages, 3 figs. Typos corrected. Comments added. Phys. Rev. Lett. in
prin
NASTRAN general purpose interface requirements document
This NASTRAN (NASA STRuctural ANalysis) General Purpose Interface Requirements Document (IRD) defines standards for deliverables required of New Capability Contractors (NCCs) and relates these deliverables to the software development cycle. It also defines standards to be followed by NCCs for adding to and modifying the code in the NASTRAN software system and for adding to and modifying the four official NASTRAN manuals: The NASTRAN Theoretical Manual, the NASTRAN User's Manual, The NASTRAN Programmer's Manual, and The NASTRAN Demonstration Problem Manual. It is intended that this General Purpose IRD shall be incorporated by reference in all contracts for a new NASTRAN capability
On the Magnitude of Dark Energy Voids and Overdensities
We investigate the clustering of dark energy within matter overdensities and
voids. In particular, we derive an analytical expression for the dark energy
density perturbations, which is valid both in the linear, quasi-linear and
fully non-linear regime of structure formation. We also investigate the
possibility of detecting such dark energy clustering through the ISW effect. In
the case of uncoupled quintessence models, if the mass of the field is of order
the Hubble scale today or smaller, dark energy fluctuations are always small
compared to the matter density contrast. Even when the matter perturbations
enter the non-linear regime, the dark energy perturbations remain linear. We
find that virialised clusters and voids correspond to local overdensities in
dark energy, with \delta_{\phi}/(1+w) \sim \Oo(10^{-5}) for voids,
\delta_{\phi}/(1+w) \sim \Oo(10^{-4}) for super-voids and
\delta_{\phi}/(1+w) \sim \Oo(10^{-5}) for a typical virialised cluster. If
voids with radii of exist within the visible Universe then
may be as large as . Linear overdensities of
matter and super-clusters generally correspond to local voids in dark energy;
for a typical super-cluster: \delta_{\phi}/(1+w) \sim \Oo(-10^{-5}). The
approach taken in this work could be straightforwardly extended to study the
clustering of more general dark energy models.Comment: 20 pages, 14 figures. Accepted by the Astrophys.
Numerical analysis of four-wave mixing between 2 ps mode-locked laser pulses in a tensile-strained bulk SOA
A numerical model of four-wave mixing between 2-ps pulses in a tensile-strained bulk semiconductor optical amplifier is presented. The model utilizes a modified Schrodinger equation to model the pulse propagation. The Schrodinger equation parameters such as the material gain first and second order dispersion, linewidth enhancement factors and optical loss coefficient are obtained using a previously developed steady-state model. The predicted four-wave mixing pulse characteristics show reasonably good agreement with experimental pulse characteristics obtained using frequency resolved optical gating
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