1,900 research outputs found
Fractional Quantum Hall Hierarchy and the Second Landau Level
We generalize the fractional quantum Hall hierarchy picture to apply to
arbitrary, possibly non-Abelian, fractional quantum Hall states. Applying this
to the nu = 5/2 Moore-Read state, we construct new explicit trial wavefunctions
to describe the fractional quantum Hall effect in the second Landau level. The
resulting hierarchy of states, which reproduces the filling fractions of all
observed Hall conductance plateaus in the second Landau level, is characterized
by electron pairing in the ground state and an excitation spectrum that
includes non-Abelian anyons of the Ising type. We propose this as a unifying
picture in which p-wave pairing characterizes the fractional quantum Hall
effect in the second Landau level.Comment: 10 pages; v2: many additional details and discussion included to help
clarify the original results, including a composite fermion type formulation
of some of the states; v3: minor correction
Probing Non-Abelian Statistics with QuasiParticle Interferometry
We examine interferometric experiments in systems that exhibit non-Abelian
braiding statistics, expressing outcomes in terms of the modular S-matrix. In
particular, this result applies to FQH interferometry, and we give a detailed
treatment of the Read-Rezayi states, providing explicit predictions for the
recently observed nu=12/5 plateau.Comment: 5 pages, 1 figure; v2: references added, orientation convention of
the modular S-matrix changed, clarification regarding particle-hole
transformation added; v3: references updated, clarifying changes made to
conform to the version published in PR
Higgs Resonance Studies At The First Muon Collider
Higgs resonance signals and backgrounds at the First Muon Collider are
discussed. Effects due to beam polarization and background angular
distributions (forward-backward charge asymmetries) are examined. The utility
of those features for improving precision measurements and narrow resonance
``discovery'' scans is described.Comment: 6 pages, latex. Presented at the Workshop on Physics at the First
Muon Collider and at the Front End of a Muon Collider, Fermilab, November
199
Study of the charge profile of thermally poled electrets
The charge profile of thermally poled electrets has been studied using two
different methods, laser induced pressure pulse (LIPP) and pulsed
electroacoustic (PEA), to gain insight into the mechanisms that are activated
and assess which is the most appropriate method to study the charge profile.
Disc--shaped PET samples have been conventionally poled to activate both the
alpha and the rho relaxation and, right after, partially discharged up to a
temperature Tpd. In this way, samples with a different combination of dipolar
and space charge polarization have been obtained. Both LIPP and PEA reveal
asymmetric profiles for Tpd below the glass transition temperature, that
progressively become antisymmetric for higher temperatures. The shape and
evolution of the charge profiles can be explained assuming injection of
negative carriers from the anode that enhances the trapping of positive
carriers near this electrode. It can be observed that PEA is able to detect a
wider variety of polarization mechanisms in the system while LIPP gives a
simpler picture of the charge profile.Comment: 19 pages, 11 figure
Measurement-Only Topological Quantum Computation
We remove the need to physically transport computational anyons around each
other from the implementation of computational gates in topological quantum
computing. By using an anyonic analog of quantum state teleportation, we show
how the braiding transformations used to generate computational gates may be
produced through a series of topological charge measurements.Comment: 5 pages, 2 figures; v2: clarifying changes made to conform to the
version published in PR
Decoherence of Anyonic Charge in Interferometry Measurements
We examine interferometric measurements of the topological charge of
(non-Abelian) anyons. The target's topological charge is measured from its
effect on the interference of probe particles sent through the interferometer.
We find that superpositions of distinct anyonic charges a and a' in the target
decohere (exponentially in the number of probes particles used) when the probes
have nontrivial monodromy with the charges that may be fused with a to give a'.Comment: 5 pages, 1 figure; v2: reference added, example added, clarifying
changes made to conform to the version published in PR
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A Comprehensive Review on Food Applications of Terahertz Spectroscopy and Imaging.
Food product safety is a public health concern. Most of the food safety analytical and detection methods are expensive, labor intensive, and time consuming. A safe, rapid, reliable, and nondestructive detection method is needed to assure consumers that food products are safe to consume. Terahertz (THz) radiation, which has properties of both microwave and infrared, can penetrate and interact with many commonly used materials. Owing to the technological developments in sources and detectors, THz spectroscopic imaging has transitioned from a laboratory-scale technique into a versatile imaging tool with many practical applications. In recent years, THz imaging has been shown to have great potential as an emerging nondestructive tool for food inspection. THz spectroscopy provides qualitative and quantitative information about food samples. The main applications of THz in food industries include detection of moisture, foreign bodies, inspection, and quality control. Other applications of THz technology in the food industry include detection of harmful compounds, antibiotics, and microorganisms. THz spectroscopy is a great tool for characterization of carbohydrates, amino acids, fatty acids, and vitamins. Despite its potential applications, THz technology has some limitations, such as limited penetration, scattering effect, limited sensitivity, and low limit of detection. THz technology is still expensive, and there is no available THz database library for food compounds. The scanning speed needs to be improved in the future generations of THz systems. Although many technological aspects need to be improved, THz technology has already been established in the food industry as a powerful tool with great detection and quantification ability. This paper reviews various applications of THz spectroscopy and imaging in the food industry
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