2,338 research outputs found
Ground-water resources data of Charlotte, DeSoto, and Hardee Counties, Florida
Charlotte, De Soto, and Hardee counties are east-southeast of
Tampa in west-central peninsular Florida, figure 1. In order to
plan the future water-resource development of the area, information
about the water resources is needed. To meet this need, the Water
Resources Division of the U.S. Geological Survey, in cooperation
with the Peace River Basin Board of the Southwest Florida Water
Management District as part of the statewide cooperative program
with the Division of Geology, Florida Board of Conservation, began
a continuing hydrologic data collection program in July, 1963, as
an initial step in the investigation and evaluation of the groundwater
resources of Hardee and De Soto counties. A similar hydrologic
data program commenced in Charlotte County in July, 1964.
Previous work in Hardee and De Soto counties included a
one year reconnaissance by the Division of Water Resources and
Conservation, Florida Board of Conservation, which concluded in
June, 1963, and resulted in a hydrologic report (Woodard, 1964).
As an outgrowth of the hydrologic data program, a Map Series
report portraying the chemical character of water in the Floridan
aquifer in the southern Peace River basin was prepared in 1967
(Kaufman and Dion).
The data contained herein constitute the basis for the Map
Series report. Additional selected data, including records of wells
and chemical analyses,, on the ground-water resources of the three
county area are also included and are published to make the data
available.
(Document has 28 pages.
On Revelation Transforms that Characterize Probability Distributions
A characterization of exponential, geometric and of distributions with almost-lack-of-memory property, based on the revelation transform of probability distributions and relevation of random variables is discussed. Known characterizations of the exponential distribution on the base of relevation transforms given by Grosswald et al. [4], and Lau and Rao [7] are obtained under weakened conditions and the proofs are simplified. A characterization the class of almost-lack-of-memory distributions through the relevation is specified
Real-Time Manipulation with Magnetically Tunable Structures
Magnetically tunable micropillar arrays with uniform, continuous and extreme tilt angles for real-time manipulation are reported. We experimentally show uniform tilt angles ranging from 0° to 57°, and develop a model to accurately capture the behavior. Furthermore, we demonstrate that the flexible uniform responsive microstructures (μFUR) can dynamically manipulate liquid spreading directionality, control fluid drag, and tune optical transmittance over a large range.United States. Air Force Office of Scientific Research (AFOSR, Grant FA9550-11-1-0059
Accelerated growth of orbital schwannomas during pregnancy does not correlate with sex hormone- or growth factor receptor status
Purpose: Until now, three cases of growth of an orbital schwannoma during pregnancy have been published. We aim to provide additional insight in the effect of pregnancy on orbital schwannomas. Methods: We present two additional cases of accelerated growth of orbital schwannomas during pregnancy and investigate receptor expression profiles for estrogen, progesterone, androgen, VEGF, EGF, FGF, PDGF-Rβ and ki-67 in the two pregnant cases and six non-pregnant cases. Results: Case 1: A 26-year-old woman developed unilateral exophthalmos during pregnancy, with normal visual acuity and ocular motility. During a subsequent pregnancy, again the exophthalmos progressed. MRI showed a mass suggestive of schwannoma. After delivery, resection of the lesion was performed through an anterior approach. Pathology confirmed schwannoma. The expression profile was positive for estrogen- and FG
Tiebreaker: Certification and Multiple Credit Ratings
This paper explores the economic role credit rating agencies play in the corporate bond market. We consider three existing theories about multiple ratings: information production, rating shopping and regulatory certification. Using differences in rating composition, default prediction and credit spread changes, our evidence only supports regulatory certification. Marginal, additional credit ratings are more likely to occur because of, and seem to matter primarily for regulatory purposes, but do not seem to provide significant additional information related to credit quality.
Sexual abuse of intellectually disabled youth : a review
Intellectual disability (ID) is a condition characterized by significant limitations in intellectual functioning and adaptive behavior, which affects various everyday social and practical skills. This disability manifests itself before the age of 18 (American Association on Intellectual and Developmental Disabilities [AAIDD], 2010). While the global prevalence of ID is only 1% (Maulik, Mascarenhas, Mathers, Dua & Saxena, 2011), research shows that the risk of being sexually abused is 2 to 6 times greater among intellectually disabled youth than among typically developing youth (Dion, Bouchard, Gaudreault & Mercier, 2012). It is also argued that the prevalence of sexual abuse may be underestimated among intellectually disabled youth, as disclosure may be more difficult for them because of their limited vocabulary and communicative abilities (Murphy, 2007). Despite this higher risk, professionals who work with this population have little information on the issue. Myths and prejudices which devalue intellectually disabled people in our society, such as the notions that they are asexual or that they do not suffer, may increase their vulnerability to sexual abuse (Mansell & Sobsey, 2001). Expanding our knowledge in the field of ID and sexual abuse may help dispel these myths and break down these prejudices. This article presents a literature review that aims to 1) provide an overview of sexual abuse of intellectually disabled youth, and 2) discuss the implications for prevention and intervention for these vulnerable youth
adiabatic versus nonadiabatic dressed-state dynamics
We discuss how a recent pump-probe study [Kelkensberg et al., Phys. Rev. Lett.
103, 123005 (2009)] of the dissociative ionization of H2, under the combined
effect of a single extreme ultraviolet attosecond pulse and an intense near-
infrared pulse, actually represents a transition-state spectroscopy of the
strong-field dissociation step, i.e., of the (probe-pulse-)dressed H2+
molecular ion. The way the dissociation dynamics is influenced by the duration
of the near-infrared probe pulse, and by the time delay between the two
pulses, is discussed in terms of adiabatic versus nonadiabatic preparation and
transport of time-parametrized Floquet resonances associated with the
dissociating molecular ion. Under a long probe pulse, the field-free
vibrational states of the initial wave packet are transported, in a one-to-one
manner, onto the Floquet resonances defined by the field intensity of the
probe pulse and propagated adiabatically under the pulse. As the probe pulse
duration shortens, nonadiabatic transitions between the Floquet resonances
become important and manifest themselves in two respects: first, as a
vibrational shake-up effect occurring near the peak of the short pulse, and
second, through strong interference patterns in the fragment's kinetic energy
spectrum, viewed as a function of the time delay between the pump and the
probe pulses
Gaseous Dark Matter Detectors
Dark Matter detectors with directional sensitivity have the potential of
yielding an unambiguous positive observation of WIMPs as well as discriminating
between galactic Dark Matter halo models. In this article, we introduce the
motivation for directional detectors, discuss the experimental techniques that
make directional detection possible, and review the status of the experimental
effort in this field.Comment: 19 pages, review on gaseous directional dark matter detectors
submitted to New Journal of Physic
Field-dependent heat transport in the Kondo insulator SmB6 : phonons scattered by magnetic impurities
The thermal conductivity of the Kondo insulator SmB was measured
at low temperature, down to 70 mK, in magnetic fields up to 15 T, on single
crystals grown using both the floating-zone and the flux methods. The residual
linear term at is found to be zero in all samples, for
all magnetic fields, in agreement with previous studies. There is therefore no
clear evidence of fermionic heat carriers. In contrast to some prior data, we
observe a large enhancement of with increasing field. The effect of
field is anisotropic, depending on the relative orientation of field and heat
current (parallel or perpendicular), and with respect to the cubic crystal
structure. We interpret our data in terms of heat transport predominantly by
phonons, which are scattered by magnetic impurities.Comment: publish versio
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