465 research outputs found
Learning to live with clover scorch
Recent research has increased our understanding of clover scorch disease in Western Australia.
An economic control has yet to be developed but it appears that management can be adjusted to reduce damage to pastures and there is scope for using resistant species and less susceptible cultivars to escape the disease.
A major research programme is in progress
Single-photon entanglement generation by wavefront shaping in a multiple-scattering medium
We demonstrate the control of entanglement of a single photon between several
spatial modes propagating through a strongly scattering medium. Measurement of
the scattering matrix allows the wavefront of the photon to be shaped to
compensate the distortions induced by multiple scattering events. The photon
can thus be directed coherently to a single or multi-mode output. Using this
approach we show how entanglement across different modes can be manipulated
despite the enormous wavefront disturbance caused by the scattering medium.Comment: 4 pages, 3 figures, reference adde
Progress in clover scorch research
Considerable progress has been made with the clover scorch problem since the devastation of the 971 epidemic when intensive research began.
Over 2000 varieties and crossbreds of subterranean clover from various collections have been screened for resistance resulting in the release of the first resistant clover, Esperance, this year.
Benefits of fungicidal spraying have been demonstrated and low cost spraying programmes for grazed pastures, and seed and hay crops are under field investigation
Ultra scale-down approaches to enhance the creation of bioprocesses at scale: impacts of process shear stress and early recovery stages
The sensitivity of biological materials to shear stress conditions encountered during large-scale bioprocessing makes successful scale up from the bench challenging. Ultra scale-down technologies seek to use just millilitre quantities to enhance our understanding of the impact of the process environment as a basis for process optimisation. They can help speed translation of new biological discoveries to market and reduce risks encountered in scale up. They are important both as process discovery tools and as preparative tools to yield material for study of subsequent stages. In this review the focus is on the early recovery stages post fermentation or cell culture and in particular the use of continuous-flow and dead-end centrifugation integrated with preparative stages (e.g. flocculation) and subsequent depth filtration. Examples range from therapeutic antibodies, to rationally engineered (synthetic biology) host strains, to stem cells for therapy
Laser-induced electron emission from a tungsten nanotip: identifying above threshold photoemission using energy-resolved laser power dependencies
We present an experiment studying the interaction of a strongly focused 25 fs
laser pulse with a tungsten nanotip, investigating the different regimes of
laser-induced electron emission. We study the dependence of the electron yield
with respect to the static electric field applied to the tip. Photoelectron
spectra are recorded using a retarding field spectrometer and peaks separated
by the photon energy are observed with a 45 % contrast. They are a clear
signature of above threshold photoemission (ATP), and are confirmed by
extensive spectrally resolved studies of the laser power dependence.
Understanding these mechanisms opens the route to control experiment in the
strong-field regime on nanoscale objects.Comment: 9 pages, 6 figure
A pump-probe study of the formation of rubidium molecules by ultrafast photoassociation of ultracold atoms
An experimental pump-probe study of the photoassociative creation of
translationally ultracold rubidium molecules is presented together with
numerical simulations of the process. The formation of loosely bound
excited-state dimers is observed as a first step towards a fully coherent
pump-dump approach to the stabilization of Rb into its lowest ground
vibrational states. The population that contributes to the pump-probe process
is characterized and found to be distinct from a background population of
pre-associated molecules.Comment: Accepted for publication in Phys. Rev. A (10 pages, 9 figures
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