1,793 research outputs found
Some further remarks on genus field
AbstractGurak's characterization of the relative (narrow) genus field of a normal extension is extended to any finite extension. Using this, a purely algebraic proof for a theorem of the author on the (narrow) genus field is given
Landauer-B\"uttiker approach for hyperfine mediated electronic transport in the integer quantum Hall regime
The interplay of spin-polarized electronic edge states with the dynamics of
the host nuclei in quantum Hall systems presents rich and non-trivial transport
physics. Here, we develop a Landauer-B\"uttiker approach to understand various
experimental features observed in the integer quantum Hall set ups featuring
quantum point contacts. The approach developed here entails a phenomenological
description of spin resolved inter-edge scattering induced via hyperfine
assisted electron-nuclear spin flip-flop processes. A self-consistent
simulation framework between the nuclear spin dynamics and edge state
electronic transport is presented in order to gain crucial insights into the
dynamic nuclear polarization effects on electronic transport and in turn the
electron-spin polarization effects on the nuclear spin dynamics. In particular,
we show that the hysteresis noted experimentally in the conductance-voltage
trace as well as in the resistively detected NMR lineshape results from a lack
of quasi-equilibrium between electronic transport and nuclear polarization
evolution. In addition, we present circuit models to emulate such hyperfine
mediated transport effects to further facilitate a clear understanding of the
electronic transport processes occurring around the quantum point contact.
Finally, we extend our model to account for the effects of quadrupolar
splitting of nuclear levels and also depict the electronic transport signatures
that arise from single and multi-photon processes.Comment: 21 pages, 8 figure
Stomach content analysis of the Indian mackerel Rastrelliger kanagurta (Cuvier) from Calicut, Kerala
The food and feeding of the Indian mackerel Rastrelliger kanagurta was studied from Calicut based on 1,551 fishes
ranging in size from 100 to 280 mm total length (TL) collected from both multi-day trawlers and ring net during the period
January to December 2006. There was a preponderance of empty stomachs in all the months. The dominant food item was
copepod. Sand and foraminiferans also formed part of the stomach content. The fish, Bregmaceros sp. was noticed for the
first time in the adult mackerel
Accurate estimation of low [< (10^-8) ohm . cm²] values of specific contact resistivity
Advancements in nanotechnology have created the need for efficient means of communication of electrical signals to nanostructures, which can be addressed using low resistance contacts. In order to study and estimate the resistance of such contacts or the resistance posed by the interface(s) in such contacts, accurate test structures and evaluation techniques need to be used. The resistance posed by an interface is quantified using its specific contact resistivity (SCR), and although multiple techniques have been utilized, inaccuracies of such techniques in measuring values of SCR lesser than ( < 10-8 Ω ldr cm2 ) have been reported. In this letter, an approach for estimating very low values of SCR (lower than the previously limiting ( < 10-8 Ω ldr cm2 )) using a cross Kelvin resistor test structure is demonstrated using aluminum to titanium silicide ohmic contacts, with a minimum estimated SCR value of 6.0 times 10-10 Ω ldr cm2
RF magnetron sputtered perovskite-oriented PSZT thin films on gold for piezoelectric and ferroelectric transducers
Conditions for depositing perovskite-oriented Pb0.92Sr0.08(Zr0.65Ti0.35) O-3 thin films on gold by RF magnetron sputtering are investigated. Deposition results were analysed by scanning electron microscopy, X-ray photoelectron spectroscopy and X-ray diffractometry. It was found that the desired perovskite phase can be obtained at a substrate temperature of 300 degrees C, much lower than the typically reported 650 degrees C for deposition on platinum
Premenstrual syndrome, coping mechanisms and associated factors among female students of a health sciences campus in South India
Background: Premenstrual syndrome (PMS) is a set of distressing physical and psychological symptoms occurring cyclically during the luteal phase of each menstrual cycle that begin a few days before menstruation and resolves within a few days of the onset of menstruation. This study focuses on finding the prevalence of premenstrual symptoms among university students and also to assess the socio-demographic, dietary and lifestyle factors associated with premenstrual symptoms.
Methods: An institutional based cross-sectional study was conducted were participants were asked to fill a premenstrual syndrome scale (PMSS) questionnaire based on which they were categorised as ‘positive PMS’ or ‘negative PMS’. Any coping mechanism applied were also reported.
Results: A total of 202 participants were part of the study of which 137 (67.8%) of them had premenstrual symptoms and of which 49 (79%) of them had a familial history of PMS. Menstrual related factors like familial history of PMS, perceived menstrual pain intensity, quantity of menstrual bleed, Duration of symptoms in the premenstrual periods were found to be significantly associated with PMS. Mood swings, abdominal cramps and generalised aches and pains were predominant symptoms reported by the students. Taking rest, sleeping and listening to music were the commonly applied coping mechanisms to relieve the symptoms.
Conclusions: The prevalence of PMS is on the higher side i.e. 68.3% compared to many studies around the world. The health seeking behaviour knowledge about PMS seems to be quite low among the students and thereby indicates the need to provide awareness and give emphasis on the management of premenstrual symptoms both pharmacologically (if required) and non-pharmacologically
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