2,201 research outputs found
Modeling Pauli measurements on graph states with nearest-neighbor classical communication
We propose a communication-assisted local-hidden-variable model that yields
the correct outcome for the measurement of any product of Pauli operators on an
arbitrary graph state, i.e., that yields the correct global correlation among
the individual measurements in the Pauli product. Within this model,
communication is restricted to a single round of message passing between
adjacent nodes of the graph. We show that any model sharing some general
properties with our own is incapable, for at least some graph states, of
reproducing the expected correlations among all subsets of the individual
measurements. The ability to reproduce all such correlations is found to depend
on both the communication distance and the symmetries of the communication
protocol.Comment: 9 pages, 2 figures. Version 2 significantly revised. Now includes a
site-invariant protocol for linear chains and a proof that no limited
communication protocol can correctly predict all quantum correlations for
ring
Graphical description of the action of Clifford operators on stabilizer states
We introduce a graphical representation of stabilizer states and translate
the action of Clifford operators on stabilizer states into graph operations on
the corresponding stabilizer-state graphs. Our stabilizer graphs are
constructed of solid and hollow nodes, with (undirected) edges between nodes
and with loops and signs attached to individual nodes. We find that local
Clifford transformations are completely described in terms of local
complementation on nodes and along edges, loop complementation, and change of
node type or sign. Additionally, we show that a small set of equivalence rules
generates all graphs corresponding to a given stabilizer state; we do this by
constructing an efficient procedure for testing the equality of any two
stabilizer graphs.Comment: 14 pages, 8 figures. Version 2 contains significant changes.
Submitted to PR
Observations of Binary Stars with the Differential Speckle Survey Instrument. VII. Measures from 2010 September to 2012 February at the WIYN Telescope
We report on speckle observations of binary stars carried out at the WIYN
Telescope over the period from September 2010 through February 2012, providing
relative astrometry for 2521 observations of 883 objects, 856 of which are
double stars and 27 of which are triples. The separations measured span a range
of 0.01 to 1.75 arc seconds. Wavelengths of 562 nm, 692 nm, and 880 nm were
used, and differential photometry at one or more of these wavelengths is
presented in most cases. Sixty-six components were resolved for the first time.
We also estimate detection limits at 0.2 and 1.0 arc seconds for high-quality
observations in cases where no companion was seen, a total of 176 additional
objects. Detection limits vary based on observing conditions and
signal-to-noise ratio, but are approximately 4 magnitudes at 0.2 arc seconds
and 6 magnitudes at 1.0 arc seconds on average. Analyzing the measurement
precision of the data set, we find that the individual separations obtained
have linear measurement uncertainties of approximately 2 mas, and photometry is
uncertain to approximately 0.1 magnitudes in general. This work provides
fundamental, well-calibrated data for future orbit and mass determinations, and
we present three first orbits and total mass estimates of nearby K-dwarf
systems as examples of this potential
Electric field and air ion exposures near high voltage overhead power lines and adult cancers: a case control study across England and Wales
Various mechanisms have been postulated to explain how electric fields emitted by high voltage overhead power lines, and the charged ions they produce, might be associated with possible adult cancer risk, but this has not previously been systematically explored in large scale epidemiological research.; We investigated risks of adult cancers in relation to modelled air ion density (per cm3) within 600 m (focusing analysis on mouth, lung, respiratory), and calculated electric field within 25 m (focusing analysis on non-melanoma skin), of high voltage overhead power lines in England and Wales, 1974-2008.; With adjustment for age, sex, deprivation and rurality, odds ratios (OR) in the highest fifth of net air ion density (0.504-1) compared with the lowest (0-0.1879) ranged from 0.94 [95% confidence interval (CI) 0.82-1.08] for mouth cancers to 1.03 (95% CI 0.97-1.09) for respiratory system cancers, with no trends in risk. The pattern of cancer risk was similar using corona ion estimates from an alternative model proposed by others. For keratinocyte carcinoma, adjusted OR in the highest (1.06-4.11 kV/m) compared with the lowest (<0.70 kV/m) thirds of electric field strength was 1.23 (95% CI 0.65-2.34), with no trend in risk.; Our results do not provide evidence to support hypotheses that air ion density or electric fields in the vicinity of power lines are associated with cancer risk in adults
Dynamic Microtubules Promote Synaptic NMDA Receptor-Dependent Spine Enlargement
Most excitatory synaptic terminals in the brain impinge on dendritic spines. We and others have recently shown that dynamic microtubules (MTs) enter spines from the dendritic shaft. However, a direct role for MTs in long-lasting spine plasticity has yet to be demonstrated and it remains unclear whether MT-spine invasions are directly influenced by synaptic activity. Lasting changes in spine morphology and synaptic strength can be triggered by activation of synaptic NMDA receptors (NMDARs) and are associated with learning and memory processes. To determine whether MTs are involved in NMDAR-dependent spine plasticity, we imaged MT dynamics and spine morphology in live mouse hippocampal pyramidal neurons before and after acute activation of synaptic NMDARs. Synaptic NMDAR activation promoted MT-spine invasions and lasting increases in spine size, with invaded spines exhibiting significantly faster and more growth than non-invaded spines. Even individual MT invasions triggered rapid increases in spine size that persisted longer following NMDAR activation. Inhibition of either NMDARs or dynamic MTs blocked NMDAR-dependent spine growth. Together these results demonstrate for the first time that MT-spine invasions are positively regulated by signaling through synaptic NMDARs, and contribute to long-lasting structural changes in targeted spines
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