733 research outputs found
Chemical Analysis of Surfaces Using Alpha Particles
Chemical analysis of surfaces using alpha particle interactions in instruments incorporating curium 242 alpha sources and semiconductor silicon detector
The chemical analysis experiment for the Surveyor lunar mission
Alpha particle detector experiment for chemical analysis of lunar surface by Surveyor spacecraf
Alpha radioactivity of the lunar surface at the Surveyor 5, 6, and 7 landing sites
Alpha radioactivity of lunar surface at Surveyor 5, 6, and 7 landing site
Diffusion-limited aggregation as branched growth
I present a first-principles theory of diffusion-limited aggregation in two
dimensions. A renormalized mean-field approximation gives the form of the
unstable manifold for branch competition, following the method of Halsey and
Leibig [Phys. Rev. A {\bf 46}, 7793 (1992)]. This leads to a result for the
cluster dimensionality, D \approx 1.66, which is close to numerically obtained
values. In addition, the multifractal exponent \tau(3) = D in this theory, in
agreement with a proposed `electrostatic' scaling law.Comment: 13 pages, one figure not included (available by request, by ordinary
mail), Plain Te
An Instrument for Lunar Surface Chemical Analysis
Instrument for lunar surface chemical analysis that uses interactions with matter of monoenergetic alpha particle
Exact solution of diffusion limited aggregation in a narrow cylindrical geometry
The diffusion limited aggregation model (DLA) and the more general dielectric
breakdown model (DBM) are solved exactly in a two dimensional cylindrical
geometry with periodic boundary conditions of width 2. Our approach follows the
exact evolution of the growing interface, using the evolution matrix E, which
is a temporal transfer matrix. The eigenvector of this matrix with an
eigenvalue of one represents the system's steady state. This yields an estimate
of the fractal dimension for DLA, which is in good agreement with simulations.
The same technique is used to calculate the fractal dimension for various
values of eta in the more general DBM model. Our exact results are very close
to the approximate results found by the fixed scale transformation approach.Comment: 18 pages RevTex, 6 eps figure
Transport Properties of Solitons
We calculate in this article the transport coefficients which characterize
the dynamics of solitons in quantum field theory using the methods of
dissipative quantum systems. We show how the damping and diffusion coefficients
of soliton-like excitations can be calculated using the integral functional
formalism. The model obtained in this article has new features which cannot be
obtained in the standard models of dissipation in quantum mechanics.Comment: 16 Pages, RevTeX, Preprint UIU
Facile one-pot synthesis of amoxicillin-coated gold nanoparticles and their antimicrobial activity
Nanomaterials have been the object of intense study due to promising applications in a number of different disciplines. In particular, medicine and biology have seen the potential of these novel materials with their nanoscale properties for use in diverse areas such as imaging, sensing and drug vectorisation. Gold nanoparticles (GNPs) are considered a very useful platform to create a valid and efficient drug delivery/carrier system due to their facile and well-studied synthesis, easy surface functionalization and biocompatibility. In the present study, stable antibiotic conjugated GNPs were synthesised by a one-step reaction using a poorly water soluble antibiotic, amoxicillin. Amoxicillin, a member of the penicillin family, reduces the chloroauric acid to form nanoparticles and at the same time coats them to afford the functionalised nanomaterial. A range of techniques including UV-vis spectroscopy, dynamic light scattering (DLS), transmission electron microscopy (TEM) and thermogravimetric analysis (TGA) were used to ascertain the gold/drug molar ratio and the optimum temperature for synthesis of uniform monodisperse particles in the ca. 30-40 nm size range. Amoxicillin-conjugated gold showed an enhancement of antibacterial activity against Escherichia coli compared to the antibiotic alone
An alternative approach for the dynamics of polarons in one dimension
We developed a new method based on functional integration to treat the
dynamics of polarons in one-dimensional systems. We treat the acoustical and
the optical case in an unified manner, showing their differences and
similarities. The mobility and diffusion coefficients are calculated in the
Markovian approximation in the strong coupling limit.Comment: 57 page
Influence of Long-Range Coulomb Interactions on the Metal-Insulator Transition in One-Dimensional Strongly Correlated Electron Systems
The influence of long-range Coulomb interactions on the properties of
one-dimensional (1D) strongly correlated electron systems in vicinity of the
metal-insulator phase transition is considered. It is shown that unscreened
repulsive Coulomb forces lead to the formation of a 1D Wigner crystal in the
metallic phase and to the transformation of the square-root singularity of the
compressibility (characterizing the commensurate-incommensurate transition) to
a logarithmic singularity. The properties of the insulating (Mott) phase depend
on the character of the short-wavelength screening of the Coulomb forces. For a
sufficiently short screening length the characteristics of the charge
excitations in the insulating phase are totally determined by the Coulomb
interaction and these quasipartic les can be described as quasiclassical
Coulomb solitons.Comment: 14 pages, LaTeX, G{\"o}teborg preprint APR 94-3
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