450 research outputs found
The Ontogeny of Somatic Embryos from in vitro Cultured Grapevine Anthers
Translucent light green to yellow anthers excised from Vitis rupestris cv. Rupestris du Lot flower buds, produced from cuttings grown in a climate-controlled room, produced somatic embryos when cultured on modified Nitsch & Nitsch (1969) medium supplemented with l μM 6-benzylaminopurine (BAP) and 5 μM 2,4-dichlorophenoxyacetic acid (2,4-D). Anatomical features of developing embryogenic explants were studied at various intervals, before and after the start of in vitro culture, using light microscopy. Results indicated that callus was entirely of somatic origin. Embryogenic cells were apparently present before in vitro culture commenced and multiplied sufficiently within the first 15 days' culture to form visible embryogenic growth centres. Embryogenic callus formed from the lateral and abaxial walls of the anther, all connective tissues and the filament. Somatic embryos were observed after 60 days of culture and possessed primordial vascular tissues and secondary embryoids. No vascular connections between somatic embryos were observed
Modelling critical Casimir force induced self-assembly experiments on patchy colloidal dumbbells
Prescission neutron multiplicity and fission probability from Langevin dynamics of nuclear fission
A theoretical model of one-body nuclear friction which was developed earlier,
namely the chaos-weighted wall formula, is applied to a dynamical description
of compound nuclear decay in the framework of the Langevin equation coupled
with statistical evaporation of light particles and photons. We have used both
the usual wall formula friction and its chaos-weighted version in the Langevin
equation to calculate the fission probability and prescission neutron
multiplicity for the compound nuclei W, Pt, Pb,
Fr, Th, and Es. We have also obtained the contributions
of the presaddle and postsaddle neutrons to the total prescission multiplicity.
A detailed analysis of our results leads us to conclude that the chaos-weighted
wall formula friction can adequately describe the fission dynamics in the
presaddle region. This friction, however, turns out to be too weak to describe
the postsaddle dynamics properly. This points to the need for a suitable
explanation for the enhanced neutron emission in the postsaddle stage of
nuclear fission.Comment: RevTex, 14 pages including 5 Postscript figures, results improved by
using a different potential, conclusions remain unchanged, to appear in Phys.
Rev.
Development and initial application of δ18Op to understand phosphorus cycling in river, lake and groundwater ecosystems.
Variation in the stable isotope composition of oxygen within dissolved phosphate (δ18Op) represents a novel and potentially powerful environmental tracer. In freshwater, marine and terrestrial ecosystems, δ18Op can act as an inherent label for the sources of phosphorus and the extent to which phosphorus from different sources is metabolised. This paper focuses on the methodological development and initial application of δ18Op across a range of freshwater ecosystems. Initially, we report modifications to the analytical protocol for δ18Op that are designed to minimise incorporation of contaminant oxygen in the final silver phosphate precipitate prior to pyrolysis. This is critical given the range of possible sources of contaminant oxygen within freshwater matrices. Subsequently, we consider the potential utility of δ18Op through application of the technique within a range of freshwater ecosystems in England, UK. Firstly, we characterise δ18Op in river water and effluents from Sewage Treatment Works (STW), and examine the opportunity to use the 18Op of STW effluents to trace the entry and downstream fate of phosphorus from these point sources in rivers. Secondly, we analyse δ18Op to gain insights into variations in the sources and biological cycling of phosphorus in a seasonally stratified lake ecosystem. Thirdly, we characterise δ18Op in shallow and deep groundwater samples, considering whether δ18Op might provide evidence for variation in source and extent of metabolism for phosphorus in groundwater ecosystems. Taken together, these data extend the catalogue of δ18Op in freshwater ecosystems, and further the scope of δ18Op as a tool to better understand phosphorus biogeochemistry
Dynamics of Vortex Dipoles in Confined Bose-Einstein Condensates
We present a systematic theoretical analysis of the motion of a pair of
straight counter-rotating vortex lines within a trapped Bose-Einstein
condensate. We introduce the dynamical equations of motion, identify the
associated conserved quantities, and illustrate the integrability of the
ensuing dynamics. The system possesses a stationary equilibrium as a special
case in a class of exact solutions that consist of rotating guiding-center
equilibria about which the vortex lines execute periodic motion; thus, the
generic two-vortex motion can be classified as quasi-periodic. We conclude with
an analysis of the linear and nonlinear stability of these stationary and
rotating equilibria.Comment: 8 pages, 3 figures, to appear in Phys. Lett.
Quantum Groups, Gravity, and the Generalized Uncertainty Principle
We investigate the relationship between the generalized uncertainty principle
in quantum gravity and the quantum deformation of the Poincar\'e algebra. We
find that a deformed Newton-Wigner position operator and the generators of
spatial translations and rotations of the deformed Poincar\'e algebra obey a
deformed Heisenberg algebra from which the generalized uncertainty principle
follows. The result indicates that in the -deformed Poincar\'e algebra
a minimal observable length emerges naturally.Comment: 13 pages, IFUP-TH 19/93, May 1993 (revised Nov. 1993
A New Relativistic High Temperature Bose-Einstein Condensation
We discuss the properties of an ideal relativistic gas of events possessing
Bose-Einstein statistics. We find that the mass spectrum of such a system is
bounded by where is the usual chemical
potential, is an intrinsic dimensional scale parameter for the motion of an
event in space-time, and is an additional mass potential of the
ensemble. For the system including both particles and antiparticles, with
nonzero chemical potential the mass spectrum is shown to be bounded by
and a special type of high-temperature
Bose-Einstein condensation can occur. We study this Bose-Einstein condensation,
and show that it corresponds to a phase transition from the sector of
continuous relativistic mass distributions to a sector in which the boson mass
distribution becomes sharp at a definite mass This phenomenon
provides a mechanism for the mass distribution of the particles to be sharp at
some definite value.Comment: Latex, 22 page
"Author! Author!" : Shakespeare and biography
Original article can be found at: http://www.informaworld.com/smpp/title~content=t714579626~db=all Copyright Informa / Taylor & Francis Group. DOI: 10.1080/17450910902764454Since 1996, not a year has passed without the publication of at least one Shakespeare biography. Yet for many years the place of the author in the practice of understanding literary works has been problematized, and even on occasions eliminated. Criticism reads the “works”, and may or may not refer to an author whose “life” contributed to their meaning. Biography seeks the author in the works, the personality that precedes the works and gives them their characteristic shape and meaning. But the form of literary biography addresses the unusual kind of “life” that puts itself into “works”, and this is particularly challenging where the “works” predominate massively over the salient facts of the “life”. This essay surveys the current terrain of Shakespeare biography, and considers the key questions raised by the medium: can we know anything of Shakespeare's “personality” from the facts of his life and the survival of his works? What is the status of the kind of speculation that inevitably plays a part in biographical reconstruction? Are biographers in the end telling us as much about themselves as they tell us about Shakespeare?Peer reviewe
Structure and chemical composition of the Mg electrode during cycling in a simple glyme electrolyte
The volumetric energy density of magnesium exceeds that of lithium, making magnesium batteries particularly promising for next-generation energy storage. However, electrochemical cycling of magnesium electrodes in common battery electrolytes is coulombically inefficient and significant charging and discharging overpotentials are observed. Several additives and electrolyte formulations based on Mg(TFSI)2-glyme electrolytes have been proposed as solutions to these problems. However, the impact and value of these advances is often hard to discern due to a lack of knowledge of the composition and performance of the Mg electrode in the underlying Mg(TFSI)2-glyme electrolyte. In this paper, the chemical and structural changes that occur during electrochemical cycling of Mg in Mg(TFSI)2-glyme electrolyte solutions are described for the first time. Using focused ion beam-scanning electron microscopy, we show that the Mg deposited during cycling consists of a shell of degradation products, which in turn surrounds an active Mg core. These structures undergo expansion and contraction during cycling due to incorporation of Mg into the core, resulting in structural deformation and degradation of the deposits. Using this structural model, we discuss the complexities observed during electrochemical cycling of Mg electrodes and elucidate the origins of the overpotentials observed during charging. The new understanding and methodology presented here will allow the impact of electrolyte additives on the performance of the Mg electrode to be resolved
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