1,520 research outputs found
Assessing the relationship between spectral solar irradiance and stratospheric ozone using Bayesian inference
We investigate the relationship between spectral solar irradiance (SSI) and
ozone in the tropical upper stratosphere. We find that solar cycle (SC) changes
in ozone can be well approximated by considering the ozone response to SSI
changes in a small number individual wavelength bands between 176 and 310 nm,
operating independently of each other. Additionally, we find that the ozone
varies approximately linearly with changes in the SSI. Using these facts, we
present a Bayesian formalism for inferring SC SSI changes and uncertainties
from measured SC ozone profiles. Bayesian inference is a powerful,
mathematically self-consistent method of considering both the uncertainties of
the data and additional external information to provide the best estimate of
parameters being estimated. Using this method, we show that, given measurement
uncertainties in both ozone and SSI datasets, it is not currently possible to
distinguish between observed or modelled SSI datasets using available estimates
of ozone change profiles, although this might be possible by the inclusion of
other external constraints. Our methodology has the potential, using wider
datasets, to provide better understanding of both variations in SSI and the
atmospheric response.Comment: 21 pages, 4 figures, Journal of Space Weather and Space Climate
(accepted), pdf version is in draft mode of Space Weather and Space Climat
Laserlight visual cueing device for freezing of gait in Parkinson's disease: a case study of the biomechanics involved
AbstractBackground: Freezing of gait (FOG) is a serious gait disorder affecting up to two-thirds of people with Parkinson's disease (PD). Cueing has been explored as a method of generating motor execution using visual transverse lines on the floor. However, the impact of a laser light visual cue remains unclear. Objective: To determine the biomechanical effect of a laser cane on FOG in a participant with PD compared to a healthy age- and gender-matched control. Methods: The participant with PD and healthy control were given a task of initiating gait from standing. Electromyography (EMG) data were collected from the tibialis anterior (TA) and the medial gastrocnemius (GS) muscles using an 8-channel system. A 10-camera system (Qualisys) recorded movement in 6 degrees of freedom and a calibrated anatomical system technique was used to construct a full body model. Center of mass (COM) and center of pressure (COP) were the main outcome measures. Results: The uncued condition showed that separation of COM and COP took longer and was of smaller magnitude than the cued condition. EMG activity revealed prolonged activation of GS, with little to no TA activity. The cued condition showed earlier COM and COP separation. There was reduced fluctuation in GS, with abnormal, early bursts of TA activity. Step length improved in the cued condition compared to the uncued condition. Conclusion: Laserlight visual cueing improved step length beyond a non-cued condition for this patient indicating improved posture and muscle control
Attosecond tracking of light absorption and refraction in fullerenes
The collective response of matter is ubiquitous and widely exploited, e.g. in
plasmonic, optical and electronic devices. Here we trace on an attosecond time
scale the birth of collective excitations in a finite system and find distinct
new features in this regime. Combining quantum chemical computation with
quantum kinetic methods we calculate the time-dependent light absorption and
refraction in fullerene that serve as indicators for the emergence of
collective modes. We explain the numerically calculated novel transient
features by an analytical model and point out the relevance for ultra-fast
photonic and electronic applications. A scheme is proposed to measure the
predicted effects via the emergent attosecond metrology.Comment: 11 pages, 3 figures, accepted in Phys. Rev.
A New Herbicide (GF-839) for Long-Term Control of Annual and Perennial Broad-Leaved Weeds in Grassland
The new herbicide GF-839 is a combination of a new active substance aminopyralid and the fully approved active substance fluroxypyr in the quantities 30 g ae/l aminopyralid + 100 g ae/l fluroxypyr. It is an emulsion, water in oil formulation (EO), and will be sold as a foliar acting herbicide for the long-term control of annual and perennial broad-leaved weeds in grassland. Globally aminopyralid can be used for weed control in range and pasture situations and plantations; in addition, uses in oilseed rape and cereals are also being explored. Aminopyralid is the most active halopyridine yet discovered and as a synthetic hormone it poses a low risk of resistance. Rumex obtusifolius (broad-leaved dock), R. crispus (curled leaf dock), Cirsium arvense (creeping thistle), C. vulgare (spear thistle), Urtica dioica (common nettle), Ranunculus repens (creeping buttercup), Taraxacum officinale (dandelion) and Stellaria media (common chickweed) are all pernicious, persistent weeds of grassland in Europe. If left unchecked they can lead to significant reductions in sward quality and quantity as well as spreading to neighbouring areas. In the UK 1.1M ha of grassland are infested with thistles, and 400,000 ha with more than 1/m2, equating to a potential loss of 1Mt DM / year. Docks at an infestation level of 10% cause potential silage losses of 10%. There are currently various products on the market for control of these weeds but GF-839 differs in that it is the first new compound to be developed primarily for the grassland market for over 30 years, and offers reliable long-term control of all of these weeds, in combination with good grassland management practice, whilst also offering a high degree of selectivity to grass
Nanopillar Arrays on Semiconductor Membranes as Electron Emission Amplifiers
A new transmission-type electron multiplier was fabricated from
silicon-on-insulator (SOI) material by integrating an array of one dimensional
(1D) silicon nanopillars onto a two dimensional (2D) silicon membrane. Primary
electrons are injected into the nanopillar-membrane system from the flat
surface of the membrane, while electron emission from the other side is probed
by an anode. The secondary electron yield (SEY) from nanopillars is found to be
about 1.8 times that of plane silicon membrane. This gain in electron number is
slightly enhanced by the electric field applied from the anode. Further
optimization of the dimensions of nanopillars and membrane and application of
field emission promise an even higher gain for detector applications and allow
for probing of electronic/mechanical excitations in nanopillar-membrane system
excited by incident particles or radiation.Comment: 4 figure
Molecular identification of Sarcocystis wobeseri-like parasites in a new intermediate host species, the white-tailed sea eagle (Haliaeetus albicilla)
A reintroduced white-tailed sea eagle (Haliaeetus albicilla) in moderate body condition was found dead and submitted for post-mortem examination. There were no signs of disease on gross pathological examination. Histopathological examination however revealed the presence of encysted protozoan parasites in pectoral and cardiac muscle sections. Polymerase chain reaction amplification of extracted genomic DNA and sequencing of four regions: the 18S rDNA, 28S rDNA, internal transcribed spacer (ITS) 1, and RNA polymerase B (rpoB) loci, confirmed the presence of a Sarcocystis species in pectoral and cardiac muscle which appeared phylogenetically similar to Sarcocystis wobeseri. This is the first report of S. wobeseri-like infection in a white-tailed sea eagle revealing a new intermediate host species for this parasite
Compositional analysis of InAs-GaAs-GaSb heterostructures by low-loss electron energy loss spectroscopy
As an alternative to Core-Loss Electron Energy Loss Spectroscopy, Low-Loss EELS is suitable for compositional analysis of complex heterostructures, such as the InAs-GaAs-GaSb system, since in this energy range the edges corresponding to these elements are better defined than in Core-Loss. Furthermore, the analysis of the bulk plasmon peak, which is present in this energy range, also provides information about the composition. In this work, compositional information in an InAs-GaAs-GaSb heterostructure has been obtained from Low-Loss EEL spectra
Experimental infection of sheep with ovine and bovine Dichelobacter nodosus isolates
AbstractThe aim of this study was, under experimental conditions, to investigate infection of Norwegian White sheep with ovine and bovine isolates of Dichelobacter nodosus of varying virulence. In addition, the efficacy of gamithromycin as a treatment for the experimentally induced infections was examined. The study was performed as a single foot inoculation using a boot. Four groups, each with six lambs, were inoculated with four different challenge strains (Group 1: benign bovine strain; Group 2: virulent bovine strain; Group 3: benign ovine strain; Group 4: virulent ovine strain). The main criterion to determine that infection was transferred was that D. nodosus isolate was obtained by culture. After the trial all lambs were treated with gamithromycin. Clinical symptoms of footrot developed in all groups, and when removing the boots two weeks after challenge, D. nodosus was isolated from 5 of 24 experimental lambs. All lambs tested negative for D. nodosus by PCR within six weeks after treatment with gamithromycin. This study strongly indicates that D. nodosus isolates from both sheep and cattle can be transferred to sheep under experimental conditions. The study also indicates that gamithromycin may be effective against D. nodosus
Defect Structure of the High-Dielectric-Constant Perovskite Cacu3ti4o12
Using transmission electron microscopy (TEM) we studied CaCu3Ti4O12, an
intriguing material that exhibits a huge dielectric response, up to kilohertz
frequencies, over a wide range of temperature. Neither in single crystals, nor
in polycrystalline samples, including sintered bulk- and thin-films, did we
observe the twin domains suggested in the literature. Nevertheless, in the
single crystals, we saw a very high density of dislocations with a Burger
vector of [110], as well as regions with cation disorder and planar defects
with a displacement vector 1/4[110]. In the polycrystalline samples, we
observed many grain boundaries with oxygen deficiency, in comparison with the
grain interior. The defect-related structural disorders and inhomogeneity,
serving as an internal barrier layer capacitance (IBLC) in a semiconducting
matrix, might explain the very large dielectric response of the material. Our
TEM study of the structure defects in CaCu3Ti4O12 supports a recently proposed
morphological model with percolating conducting regions and blocking regions.Comment: To be published in Physical Review B 21 pages, 8 figure
Helium irradiation effects in polycrystalline Si, silica, and single crystal Si
Transmission electron microscopy (TEM) has been used to investigate the effects of room temperature 6 keV helium ion irradiation of a thin (≈55 nm thick) tri-layer consisting of polycrystalline Si, silica, and single-crystal Si. The ion irradiation was carried out in situ within the TEM under conditions where approximately 24% of the incident ions came to rest in the specimen. This paper reports on the comparative development of irradiation-induced defects (primarily helium bubbles) in the polycrystalline Si and single-crystal Si under ion irradiation and provides direct measurement of a radiation-induced increase in the width of the polycrystalline layer and shrinkage of the silica layer. Analysis using TEM and electron energy-loss spectroscopy has led to the hypothesis that these result from helium-bubble-induced swelling of the silicon and radiation-induced viscoelastic flow processes in the silica under the influence of stresses applied by the swollen Si layers. The silicon and silica layers are sputtered as a result of the helium ion irradiation; however, this is estimated to be a relatively minor effect with swelling and stress-related viscoelastic flow being the dominant mechanisms of dimensional change
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