1,849 research outputs found
London force and energy transportation between interfacial surfaces
With appropriately selected optical frequencies, pulses of radiation propagating through a system of chemically distinct and organized components can produce areas of spatially selective excitation. This paper focuses on a system in which there are two absorptive components, each one represented by surface adsorbates arrayed on a pair of juxtaposed interfaces. The adsorbates are chosen to be chemically distinct from the material of the underlying surface. On promotion of any adsorbate molecule to an electronic excited state, its local electronic environment is duly modified, and its London interaction with nearest neighbor molecules becomes accommodated to the new potential energy landscape. If the absorbed energy then transfers to a neighboring adsorbate of another species, so that the latter acquires the excitation, the local electronic environment changes and compensating motion can be expected to occur. Physically, this is achieved through a mechanism of photon absorption and emission by molecular pairs, and by the engagement of resonance transfer of energy between them. This paper presents a detailed analysis of the possibility of optically effecting such modifications to the London force between neutral adsorbates, based on quantum electrodynamics (QED). Thus, a precise link is established between the transfer of excitation and ensuing mechanical effects
Computer simulation of low-energy excitations in amorphous silicon with voids
We use empirical molecular dynamics technique to study the low-energy
vibrations in a large 4096 atom model for pure amorphous silicon and a set of
models with voids of different size based on it. Numerical vibrational
eigenvalues and eigenvectors for our models are obtained by exact
diagonalization of their dynamical matrices. Our calculations show that
localized low-energy vibrational excitations of rather complex structure are
present in amorphous silicon models with voids. According to their spatial
localization patterns we make an attempt to classify these excitations as modes
associated with the void and "mixed" modes associated with the interaction of
the void with strained regions of silicon network.Comment: Was presented at ICAMS18 conference, Snowbird UT, August 1999.
Submitted to J. of Non-Cryst. Solid
Penicillin Allergy Assessment and Skin Testing in the Outpatient Setting
Penicillin allergies are among of the most commonly reported allergies, yet only 10% of these patients are truly allergic. This leads to potential inadvertent negative consequences for patients and makes treatment decisions challenging for clinicians. Thus, allergy assessment and penicillin skin testing (PST) are important management strategies to reconcile and clarify labeled penicillin allergies. While PST is more common in the inpatient setting where the results will immediately impact antibiotic management, this process is becoming of increasing importance in the outpatient setting. PST in the outpatient setting allows clinicians to proactively de-label and educate patients accordingly so beta-lactam antibiotics may be appropriately prescribed when necessary for future infections. While allergists have primarily been responsible for PST in the outpatient setting, there is an increasing role for pharmacist involvement in the process. This review highlights the importance of penicillin allergy assessments, considerations for PST in the outpatient setting, education and advocacy for patients and clinicians, and the pharmacist’s role in outpatient PST
Crystal engineering using functionalized adamantane
We performed a first principles investigation on the structural, electronic,
and optical properties of crystals made of chemically functionalized adamantane
molecules. Several molecular building blocks, formed by boron and nitrogen
substitutional functionalizations, were considered to build zincblende and
wurtzite crystals, and the resulting structures presented large bulk moduli and
cohesive energies, wide and direct bandgaps, and low dielectric constants
(low- materials). Those properties provide stability for such
structures up to room temperature, superior to those of typical molecular
crystals. This indicates a possible road map for crystal engineering using
functionalized diamondoids, with potential applications ranging from space
filling between conducting wires in nanodevices to nano-electro-mechanical
systems
Structural, Electronic, and Vibrational Properties of Amino-adamantane and Rimantadine Isomers
We performed a first principles total energy investigation on the structural,
electronic, and vibrational properties of adamantane molecules, functionalized
with amine and ethanamine groups. We computed the vibrational signatures of
amantadine and rimantadine isomers with the functional groups bonded to
different carbon sites. By comparing our results with recent infrared and Raman
spectroscopic data, we discuss the possible presence of different isomers in
experimental samples
A study of the Higgs and confining phases in Euclidean SU(2) Yang-Mills theories in 3d by taking into account the Gribov horizon
We study SU(2) three-dimensional Yang-Mills theories in presence of Higgs
fields in the light of the Gribov phenomenon. By restricting the domain of
integration in the functional integral to the first Gribov horizon, we are able
to discuss a kind of transition between the Higgs and the confining phase in a
semi-classical approximation. Both adjoint and fundamental representation for
the Higgs field are considered, leading to a different phase structure.Comment: 12 pages. Version accepted for publication in the EPJ
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