1,461 research outputs found
Generation of Basis Vectors for Magnetic Structures and Displacement Modes
Increasing attention is being focused on the use of symmetry-adapted functions to describe magnetic structures, structural
distortions, and incommensurate crystallography.Though the calculation of such functions is well developed, significant difficulties
can arise such as the generation of too many or too few basis functions to minimally span the linear vector space. We present
an elegant solution to these difficulties using the concept of basis sets and discuss previous work in this area using this concept.
Further, we highlight the significance of unitary irreducible representations in this method and provide the first validation that the
irreducible representations of the crystallographic space groups tabulated by Kovalev are unitary
A New Heavy-Fermion Superconductor CeIrIn5: Relative of the Cuprates?
CeIrIn5 is a member of a new family of heavy-fermion compounds and has a
Sommerfeld specific heat coefficient of 720 mJ/mol-K2. It exhibits a bulk,
thermodynamic transition to a superconducting state at Tc=0.40 K, below which
the specific heat decreases as T2 to a small residual T-linear value.
Surprisingly, the electrical resistivity drops below instrumental resolution at
a much higher temperature T0=1.2 K. These behaviors are highly reproducible and
field-dependent studies indicate that T0 and Tc arise from the same underlying
electronic structure. The layered crystal structure of CeIrIn5 suggests a
possible analogy to the cuprates in which spin/charge pair correlations develop
well above Tc
Integrating sociotechnical and spatial imaginaries in researching energy futures
This is the author accepted manuscript. The final version is available from Elsevier via the DOI in this record In this Perspective we argue that how we imagine energy futures is inevitably entwined with how we envision our collective social and geographical futures. Spatiality is both constituted by and constitutive of sociotechnical imaginaries (STIs), as they encode specific imaginations of socio-spatial order. Going beyond recognising spatial differences, we formalise an assertively spatial perspective on STIs by drawing on the concept of spatial imaginaries. We show how holding that STIs and spatial imaginaries are co-produced is a productive way of conceptualising the spatial dimensions of STIs. Drawing on three types of spatial imaginary (place imaginaries, idealised spaces and spatial transformations imaginaries), we delineate two main lines of inquiry. First, we elaborate the spatialities underpinning energy transition imaginaries, identifying ways that each particular type of spatial imaginary, both separately and interconnectedly, shape energy transitions. Second, we address the politics of space and scale involved in the circulation and uptake of energy transition imaginaries, which is shaped by existing power relations, socio-spatial inequalities and the differentiated material and symbolic resources available to actors. We argue that this agenda contributes to richer understandings of how energy transitions unfold and offers further insights into how spatial concepts are actively mobilised within processes of social change.European Union Horizon 202
Multi-epoch VLBA observations of 3C 66A
We present the results of six-epoch Very Long Baseline Array (VLBA)
observations of 3C~66A. The high-resolution Very Long Baseline Interferometer
(VLBI) maps obtained at multi-frequency (2.3, 8.4, and 22.2 GHz) simultaneously
enabled us to identify the brightest compact component with the core. We find
that the spectrum of the core can be reasonably fitted by the synchrotron
self-absorption model. Our VLBA maps show that the jet of 3C~66A has two
bendings at about 1.2 and 4 mas from the core. We also give possible
identifications of our jet components with the components in previous VLBA
observations by analysing their proper motions. We find consistent differences
of the position from the core in one component between different frequencies at
six epochs.Comment: 10 pages, 5 figures, received 30 January 2007, accepted 22 March 200
Low Temperature Specific Heat of DyTiO in the Kagome Ice State
We report the specific heat of single crystals of the spin ice compound
DyTiO at temperatures down to 100 mK in the so-called Kagome ice
state. In our previous paper, we showed the anisotropic release of residual
entropy in different magnetic field directions and reported new residual
entropy associated with spin frustration in the Kagome slab for field in the
[111] direction. In this paper, we confirm the first-order phase transition
line in the field-temperature phase diagram and the presence of a critical
point at (0.98 T, 400 mK), previously reported from the magnetization and
specific-heat data. We newly found another peak in the specific heat at 1.25 T
below 0.3 K. One possible explanation for the state between 1 T and 1.25 T is
the coexistence of states with different spin configurations including the 2-in
2-out one (Kagome ice state), the 1-in 3-out state (ordered state) and
paramagnetic one (free-spin state).Comment: 14 pages, 7 figure
A dimensional summation account of polymorphous category learning
This is the author accepted manuscript. The final version is available from Springer via the DOI in this record.Data and code availaibility: The data and code for all analyses for all experiments are available at the OSF addresses
given in each Results section. The stimuli are available at the same locations.Polymorphous concepts are hard to learn, and this is perhaps surprising because
they, like many natural concepts, have an overall similarity structure. However, the dimensional summation hypothesis (Milton & Wills, 2004) predicts this difficulty. It also makes a
number of other predictions about polymorphous concept formation, which are tested here.
In Experiment 1 we confirm the theory’s prediction that polymorphous concept formation
should be facilitated by deterministic pretraining on the constituent features of the stimulus.
This facilitation is relative to an equivalent amount of training on the polymorphous concept itself. In Experiments 2–4, the dimensional summation account of this single feature
pretraining effect is contrasted with some other accounts, including a more general strategic
account (Experiment 2), seriality of training and stimulus decomposition accounts (Experiment 3), and the role of errors (Experiment 4). The dimensional summation hypothesis
provides the best account of these data. In Experiment 5, a further prediction is confirmed
— the single feature pretraining effect is eliminated by a concurrent counting task. The
current experiments suggest the hypothesis that natural concepts might be acquired by the
deliberate serial summation of evidence. This idea has testable implications for classroom
learning.Biotechnology and Biological Sciences Research Council (BBSRC
The Distribution of Redshifts in New Samples of Quasi-stellar Objects
Two new samples of QSOs have been constructed from recent surveys to test the
hypothesis that the redshift distribution of bright QSOs is periodic in
. The first of these comprises 57 different redshifts among all
known close pairs or multiple QSOs, with image separations 10\arcsec,
and the second consists of 39 QSOs selected through their X-ray emission and
their proximity to bright comparatively nearby active galaxies. The redshift
distributions of the samples are found to exhibit distinct peaks with a
periodic separation of in identical to that claimed
in earlier samples but now extended out to higher redshift peaks and 4.47, predicted by the formula but never seen before. The periodicity
is also seen in a third sample, the 78 QSOs of the 3C and 3CR catalogues. It is
present in these three datasets at an overall significance level -
, and appears not to be explicable by spectroscopic or similar
selection effects. Possible interpretations are briefly discussed.Comment: submitted for publication in the Astronomical Journal, 15 figure
Aging and memory effects in beta-hydrochinone-clathrate
The out-of-equilibrium low-frequency complex susceptibility of the
orientational glass methanol(73%)-beta-hydrochinone-clathrate is studied using
temperature-stop protocols in aging experiments . Although the material does
not have a sharp glass transition aging effects including rejuvenation and
memory are found at low temperatures. However, they turn out to be much weaker,
however, than in conventional magnetic spin glasses.Comment: 5 pages RevTeX, 6 eps-figures include
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