25,017 research outputs found
Properties of length-apodized phase-shifted lpgs operating at the phase matching turning point
The characteristics of length-apodized phase-shifted fiber optic long period
gratings with full and partial nanostructured coatings have been explored
theoretically and experimentally. The twin rejection bands that are
characteristic of length-apodized phase-shifted long period gratings are studied
for a long period grating (LPG) operating at the phase matching turning point.
When one half of the length of the LPG is coated, complex bandgap like structure
appears within the transmission spectrum, which may be of benefit to spectral
filter design and for sensing applications
Cure monitoring of a UV cured epoxy resin using a long period grating Mach- Zehnder interferometer
A cascaded long period grating Mach-Zehnder interferometer is used to monitor
the change in refractive index of a UV cured epoxy resin over a cure cycle.
Fourier techniques are used to calculate the phase shift and frequency spectral
amplitude of the associated fringe pattern during the cure. The results are
compared with the refractive index change during cure calculated using a Fresnel
reflection based technique
Physics of Nonthermal Radio Sources
On December 3 and 4, 1962, the Goddard Institute for Space Studies, an office of the National Aeronautics and Space Administration, was host to an international group of astronomers and physicists who met to discuss the physics of nonthermal radio sources. This was the third in a continuing series of interdisciplinary meetings held at the Institute on topics which have a special bearing on the main lines of inquiry in the space program. The conference was organized by G. R. Burbidge of the University of California at San Diego and by L. Woltjer, then of the University of Leiden but temporarily at the Massachusetts Institute of Technology, and now of Columbia University
Convex optimization for the planted k-disjoint-clique problem
We consider the k-disjoint-clique problem. The input is an undirected graph G
in which the nodes represent data items, and edges indicate a similarity
between the corresponding items. The problem is to find within the graph k
disjoint cliques that cover the maximum number of nodes of G. This problem may
be understood as a general way to pose the classical `clustering' problem. In
clustering, one is given data items and a distance function, and one wishes to
partition the data into disjoint clusters of data items, such that the items in
each cluster are close to each other. Our formulation additionally allows
`noise' nodes to be present in the input data that are not part of any of the
cliques. The k-disjoint-clique problem is NP-hard, but we show that a convex
relaxation can solve it in polynomial time for input instances constructed in a
certain way. The input instances for which our algorithm finds the optimal
solution consist of k disjoint large cliques (called `planted cliques') that
are then obscured by noise edges and noise nodes inserted either at random or
by an adversary
A solution to the slow stabilisation of surface pressure sensors based on the Wilhelmy method
Dynamic measurement of surface pressure is of particular interest in the field of Langmuir
monolayers, where the change in surface pressure throughout an experiment can provide information
on the properties of the monolayer forming material, or on the reaction kinetics of
the monolayer’s interaction with other materials. One of the most common methods for the
measurement of dynamic surface pressure is the Wilhelmy plate method. This method measures
changes in the forces acting upon a thin plate of material at the air-water interface; this
measurement is then converted to surface pressure. One version of this method, which uses filter
paper plates at the air-water interface, is particularly popular due to their relatively low cost.
However, it has been seen that the use of filter paper plates attached to a Wilhelmy balance requires
an initial stabilisation period lasting several hours, during which the readings drift from
the original baseline. Here the cause of this drift is explored, considering how changes in the
weight of the plate over time influence the assumptions on which the surface pressure is derived
from the measurements made by the Wilhelmy balance. A simple method for preventing
this drift through pre-soaking of the filter paper plates is presented
A simple method for fabricating phase-shifted fibre Bragg gratings with flexible choice of centre wavelength
A simple technique for fabricating phase-shifted fibre Bragg gratings (PSFBGs)
without the use of a phase-shifted phase mask is presented. Two, 3-mm long,
standard fibre Bragg gratings (FBGs) were inscribed sequentially in singlemode
fibre at the same Bragg wavelength such that the FBGs physically overlapped by
one grating period. This induces a spectral-hole in the middle of the reflection
spectrum of a standard FBG, equivalent to a π-phase shifted FBG. The flexibility
of the technique in writing PSFBGs at any choice of wavelength is demonstrated.
The results show that PSFBG devices produced by this method are highly
reproducible and the process is fas
Dissolved oxygen sensing using an optical fibre long period grating coated with hemoglobin
A long period grating fiber optic sensor coated
with hemoglobin is used to detect dissolved oxygen.
The sensitivity of this sensor to the ratio of dissolved carbon
dioxide to dissolved oxygen is demonstrated via the conversion of
carboxyhemoglobin to oxyhemoglobin on the sensor surface. The
sensor shows good repeatability with a %CV of less than 1% for
carboxyhemoglobin and oxyhemoglobin states with no
measurable drift or hysteresis
Monitoring techniques for the manufacture of tapered optical fibers
The use of a range of optical techniques to monitor the process of fabricating optical fiber tapers is investigated. Thermal imaging was used to optimize the alignment of the optical system; the transmission spectrum of the fiber was monitored to confirm that the tapers had the required optical properties and the strain induced in the fiber during tapering was monitored using in-line optical fiber Bragg gratings. Tapers were fabricated with diameters down to 5 ÎĽm and with waist lengths of 20 mm using single-mode SMF-28 fiber
Optical coherence tomography with a Fizeau interferometer configuration
We report the investigation of a Fizeau interferometer-based OCT system. A
secondary processing interferometer is necessary in this configuration, to
compensate the optical path difference formed in the Fizeau interferometer
between the end of the fibre and the sample. The Fizeau configuration has the
advantage of 'downlead insensitivity', which eliminates polarisation fading. An
optical circulator is used in our system to route light efficiently from the
source to the sample, and backscattered light from the sample and the fibre end
through to the Mach-Zehnder processing interferometer. The choice of a Mach-
Zehnder processing interferometer, from which both antiphase outputs are
available, facilitates the incorporation of balanced detection, which often
results in a large improvement in the Signal-to-Noise ratio (SNR) compared with
the use of a single detector. Balanced detection comprises subtraction of the
two antiphase interferometer outputs, implying that the signal amplitude is
doubled and the noise is well reduced. It has been discerned that the SNR drops
when the refractive index variation at a boundary is small. Several OCT images
of samples (resin, resin + crystals, fibre composite) are presented
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