2,910 research outputs found
Identification of relaxation and diffusion mechanisms in amorphous silicon
The dynamics of amorphous silicon at low temperatures can be characterized by
a sequence of discrete activated events, through which the topological network
is locally reorganized. Using the activation-relaxation technique, we create
more than 8000 events, providing an extensive database of relaxation and
diffusion mechanisms. The generic properties of these events - size, number of
atoms involved, activation energy, etc. - are discussed and found to be
compatible with experimental data. We introduce a complete and unique
classification of defects based on their topological properties and apply it to
study of events involving only four-fold coordinated atoms. For these events,
we identify and present in detail three dominant mechanisms.Comment: 4 pages, three figures, submitted to PR
The ability of fifth grade children to discriminate between fact and opinion statement
Thesis (Ed.M.)--Boston Universit
Discrete ordinates-Monte Carlo coupling: A comparison of techniques in NERVA radiation analysis
In the radiation analysis of the NERVA nuclear rocket system, two-dimensional discrete ordinates calculations are sufficient to provide detail in the pressure vessel and reactor assembly. Other parts of the system, however, require three-dimensional Monte Carlo analyses. To use these two methods in a single analysis, a means of coupling was developed whereby the results of a discrete ordinates calculation can be used to produce source data for a Monte Carlo calculation. Several techniques for producing source detail were investigated. Results of calculations on the NERVA system are compared and limitations and advantages of the coupling techniques discussed
Thermally-activated charge reversibility of gallium vacancies in GaAs
The dominant charge state for the Ga vacancy in GaAs has been the subject of
a long debate, with experiments proposing 1, 2 or 3 as the best
answer. We revisit this problem using {\it ab initio} calculations to compute
the effects of temperature on the Gibbs free energy of formation, and we find
that the thermal dependence of the Fermi level and of the ionization levels
lead to a reversal of the preferred charge state as the temperature increases.
Calculating the concentrations of gallium vacancies based on these results, we
reproduce two conflicting experimental measurements, showing that these can be
understood from a single set of coherent LDA results when thermal effects are
included.Comment: 4 pages, 4 figure
Cost-Offsets of New Medications for Treatment of Schizophrenia
Broad claims are frequently made that new medications will offset all or part of their costs by reducing other areas of Medicaid spending. In this paper we examine the net impact on spending for new drugs used to treat schizophrenia. We extend research in this area by taking a new approach to identification of spending impacts of new drugs. We specify and estimate models of spending on treatment of schizophrenia using 7 years of Florida Medicaid data. The estimates indicate that use of the new drugs result in net spending increases. This may be due to increased adherence to treatment.
Multicolored quantum dimer models, resonating valence-bond states, color visons, and the triangular-lattice t_2g spin-orbital system
The spin-orbital model for triply degenerate t_2g electrons on a triangular
lattice has been shown to be dominated by dimers: the phase diagram contains
both strongly resonating, compound spin-orbital dimer states and quasi-static,
spin-singlet valence-bond (VB) states. To elucidate the nature of the true
ground state in these different regimes, the model is mapped to a number of
quantum dimer models (QDMs), each of which has three dimer colors. The generic
multicolored QDM, illustrated for the two- and three-color cases, possesses a
topological color structure, "color vison" excitations, and broad regions of
resonating VB phases. The specific models are analyzed to gain further insight
into the likely ground states in the superexchange and direct-exchange limits
of the electronic Hamiltonian, and suggest a strong tendency towards VB order
in all cases.Comment: 16 pages, 12 figure
Activated sampling in complex materials at finite temperature: the properly-obeying-probability activation-relaxation technique
While the dynamics of many complex systems is dominated by activated events,
there are very few simulation methods that take advantage of this fact. Most of
these procedures are restricted to relatively simple systems or, as with the
activation-relaxation technique (ART), sample the conformation space
efficiently at the cost of a correct thermodynamical description. We present
here an extension of ART, the properly-obeying-probability ART (POP-ART), that
obeys detailed balance and samples correctly the thermodynamic ensemble.
Testing POP-ART on two model systems, a vacancy and an interstitial in
crystalline silicon, we show that this method recovers the proper
thermodynamical weights associated with the various accessible states and is
significantly faster than MD in the diffusion of a vacancy below 700 K.Comment: 10 pages, 3 figure
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