9,238 research outputs found
Revising Mary Queen of Scots: from Protestant Persecution to Patriarchal Struggle
Since Mary Queen of Scots’ execution in 1587, she has become a symbol of Scottish identity, failed female leadership, and Catholic martyrdom. Throughout the twentieth century, Mary was regularly depicted on screen (Ford, 1936; Froelich, 1940; Jarrott, 1971) as a thrice-wed Catholic queen, unable to rule her country due to her feminine nature and Catholic roots. However, with the rise of third wave feminism and postfeminism in media, coupled with the increased influence of female directors and writers, Mary’s characterization has shifted from portraying female/emotional weakness and religious sacrifice to female/collaborative strength in hardship and a struggle against patriarchal prejudice. Josie Rourke’s film Mary Queen of Scots (2018) and CW’s Reign (2013-2017) present a queen who is no longer limited to her religious identity as a Catholic martyr, and consequently a weak ruler. Instead religious division is mostly sidelined, and gendered politics is the central struggle, highlighting similarities between Mary and Queen Elizabeth I of England, where previous films presented opposites. Together, these two productions transform Mary’s narrative from fragility and religion, into a struggle against misogynistic control of powerful women
Evaluation of large area crop estimation techniques using LANDSAT and ground-derived data
The results of the Domestic Crops and Land Cover Classification and Clustering study on large area crop estimation using LANDSAT and ground truth data are reported. The current crop area estimation approach of the Economics and Statistics Service of the U.S. Department of Agriculture was evaluated in terms of the factors that are likely to influence the bias and variance of the estimator. Also, alternative procedures involving replacements for the clustering algorithm, the classifier, or the regression model used in the original U.S. Department of Agriculture procedures were investigated
Lunar particle shadows and boundary layer experiment: Plasma and energetic particles on the Apollo 15 and 16 subsatellites
The lunar particle shadows and boundary layer experiments aboard the Apollo 15 and 16 subsatellites and scientific reduction and analysis of the data to date are discussed with emphasis on four major topics: solar particles; interplanetry particle phenomena; lunar interactions; and topology and dynamics of the magnetosphere at lunar orbit. The studies of solar and interplanetary particles concentrated on the low energy region which was essentially unexplored, and the studies of lunar interaction pointed up the transition from single particle to plasma characteristics. The analysis concentrated on the electron angular distributions as highly sensitive indicators of localized magnetization of the lunar surface. Magnetosphere experiments provided the first electric field measurements in the distant magnetotail, as well as comprehensive low energy particle measurements at lunar distance
Anisotropic thermal expansion of Fe1.06Te and FeTe0.5Se0.5 single crystals
Heat capacity and anisotropic thermal expansion was measured for Fe1.06Te and
FeTe0.5Se0.5 single crystals. Previously reported phase transitions are clearly
seen in both measurements. In both cases the thermal expansion is anisotropic.
The uniaxial pressure derivatives of the superconducting transition temperature
in FeTe0.5Se0.5 inferred from the Ehrenfest relation have opposite signs for
in-plane and c-axis pressures. Whereas the Gruneisen parameters for both
materials are similar and only weakly temperature-dependent above ~ 80 K, at
low temperatures (in the magnetically ordered phase) the magnetic contribution
to the Gruneisen parameter in Fe1.06Te is significantly larger than electron
and phonon contributions combined
Orbital Order, Structural Transition and Superconductivity in Iron Pnictides
We investigate the 16-band d-p model for iron pnictide superconductors in the
presence of the electron-phonon coupling g with the orthorhombic mode which is
crucial for reproducing the recently observed ultrasonic softening. Within the
RPA, we obtain the ferro-orbital order below TQ which induces the
tetragonal-orthorhombic structural transition at Ts = TQ, together with the
stripe-type antiferromagnetic order below TN. Near the phase transitions, the
system shows the s++ wave superconductivity due to the orbital fluctuation for
a large g case with TQ > TN, while the s+- wave due to the magnetic fluctuation
for a small g case with TQ < TN. The former case is consistent with the phase
diagram of doped iron pnictides with Ts > TN.Comment: 5 pages, 5 figures, minor changes, published in J. Phys. Soc. Jp
PMS19 FRACTURE-RELATED TREATMENT COSTS ATTRIBUTABLE TO PROTON PUMP INHIBITOR USE IN OSTEOPOROSIS PATIENTS
Effect of annealing on the specific heat of optimally doped Ba(FeCo)As
We report the temperature dependence of the low-temperature specific heat
down to 400 mK of the electron-doped Ba(FeCo)As
superconductors. We have measured two samples extracted from the same batch:
first sample has been measured just after preparation with no additional heat
treatment. The sample shows =20 K, residual specific heat
=3.6 mJ/mol K and a Schottky-like contribution at low
temperatures. A second sample has been annealed at 800 for two weeks
and shows = 25 K and =1.4 mJ/mol~K. By subtracting
the lattice specific heat, from pure BaFeAs, the temperature
dependence of the electronic specific heat has been obtained and studied. For
both samples the temperature dependence of clearly indicate the
presence of low-energy excitations in the system. Their specific heat data
cannot be described by single clean s- or d-wave models and the data requires
an anisotropic gap scenario which may or may not have nodesComment: SCES 2010, 5 pages, 2 figure
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