A superweak solution of the Strong CP Problem

A non-axion solution to the Strong CP Problem is proposed that works even in the context of gravity-mediated supersymmetry breaking. Both $\epsilon'/\epsilon$ and indirect CP violation in the $B-\bar{B}$ are predicted to be unobservably small. $\mu \longrightarrow e \gamma$ is predicted to arise, typically, with branching ration $3 \times 10^{-12}$. A new source of dark matter is also predicted in the model.Comment: LaTex 12 page

A Lower Bound for the Spectral Radius of Graphs with Fixed Diameter

AMS classifications: 05C50, 05E99;graphs;spectral radius;diameter;bound;degree/diameter

Asymptotic Results on the Spectral Radius and the Diameter of Graphs

2000 Mathematics Subject Classification: 05C50, 05E99;graphs;spectral radius;diameter;limit points;quipus

Effects of fabric counts and weave designs on the properties of laminated woven kenaf carbon fibre reinforced epoxy hybrid composites

The effects of different fabric materials namely weave designs (plain and satin) and fabric counts (5 × 5 and 6 × 6) on the properties of laminated woven kenaf/carbon fibre reinforced epoxy hybrid composites were evaluated. The hybrid composites were fabricated from two types of fabric, i.e., woven kenaf that was made from a yarn of 500tex and carbon fibre, by using vacuum infusion technique and epoxy resin as matrix. The panels were tested for tensile, flexural, and impact strengths. The results have revealed that plain fabric is more suitable than satin fabric for obtaining high tensile and impact strengths. Using a fabric count of 5 × 5 has generated composites that are significantly higher in flexural modulus as compared to 6 × 6 which may be attributed to their structure and design. The scanned electron micrographs of the fractured surfaces of the composites demonstrated that plain woven fabric composites had better adhesion properties than satin woven fabric composites, as indicated by the presence of notably lower amount of fibre pull out

Polarized beam operation of the Hybrid Spectrometer at the pulsed Spallation Neutron Source

The concept of a neutron Hybrid Spectrometer (HYSPEC) combines the time-of-flight spectroscopy with the focusing Bragg optics and incorporates a polarized beam option. Here we describe the polarization analysis scheme proposed for HYSPEC and quantify its performance via the Monte-Carlo simulations. We find that the broadband supermirror-bender transmission polarizers provide reasonably good polarization analysis capability within about 8-10 meV energy window for scattered neutron energies in the thermal range up to about 25 meV.Comment: Preprint, to appear in Physica B. 10 pages, 4 figure

Magnetization reversal in mesoscopic Ni80Fe20 wires: A magnetic domain launching device

The magnetization reversal process in mesoscopic permalloy (Ni80Fe20) wire structures has been investigated using scanning Kerr microscopy, magnetic force microscopy (MFM) and micromagnetic calculations. We find that the junction offers a site for reversed domain wall nucleation in the narrow part of the wires. As a consequence, the switching field is dominated by the domain nucleation field and the junction region initiates reversal by the wall motion following the nucleation of domains. Our results suggest the possibility of designing structures that can be used to “launch” reverse domains in narrow wires within a controlled field rang

On the Treatment of Neutrino Oscillations Without Resort to Weak Eigenstates

We discuss neutrino oscillations in the framework of the quantum field theory without introducing the concept of neutrino weak eigenstates. The external particles are described by wave packets and the different mass eigenstate neutrinos propagate between the production and detection interactions, which are macroscopically localized in space-time. The time-averaged cross section, which is the measurable quantity in the usual experimental setting, is calculated. It is shown that only in the extremely relativistic limit the usual quantum mechanical oscillation probability can be factored out of the cross section.Comment: LaTeX-18pages, JHU-TIPAC-930011,DFTT 22/9

Using optical tweezers, single molecule fluorescence and the ZIF268 protein-DNA system to probe mechanotransduction mechanisms

Thesis (S.M.)--Massachusetts Institute of Technology, Biological Engineering Division, 2006.Includes bibliographical references (p. 42-43).Optical tweezers instruments use laser radiation pressure to trap microscopic dielectric beads. With the appropriate chemistry, such a bead can be attached to a single molecule as a handle, permitting the application of force on the single molecule. Measuring the force applied in real-time is dependent on detecting the bead's displacement from the trapping laser beam axis. Back-focal-plane detection provides a way of measuring the displacement, in two-dimensions, at nanometer or better resolution. The first part of this work will describe the design of a simple and inexpensive position sensing module customized for optical tweezers applications. Single molecule fluorescence is another powerful technique used to obtain microscopic details in biological systems. This technique can detect the arrival of a single molecule into a small volume of space or detect the conformational changes of a single molecule. Combining optical tweezers with single-molecule fluorescence so that one can apply forces on a single molecule while monitoring its effects via single molecule fluorescence provides an even more powerful experimental platform to perform such microscopic studies. Due to the enhanced photobleaching of fluorophores caused by the trapping laser, this combined technology has only been demonstrated under optimized conditions.(cont.) The second part of this work will describe a straightforward and noninvasive method of eliminating this problem. The study of mechanotransduction in biological systems is critical to understanding the coupling between mechanical forces and biochemical reactions. Due to the recent advances in single molecule technology, it is now possible to probe such mechanisms at the single molecule level. The third and final part of this work will describe a basic mechanotransduction experiment using the well-studied ZIF268 protein-DNA system. An experimental assay and method of analysis will be outlined.by Peter Lee.S.M