1,767 research outputs found
A method of characteristics solution for the equations governing the unsteady flow of liquids in closed systems
Method of characteristics solution for equations governing unsteady flow of liquids in closed system
State And Local Government Administration: A Symposium
It is stated by some authors of state and local government textbooks that if states did not exist in America they would have to be created. Undoubtedly this is to underscore the importance of the geographical decentralization of government in a country with such an extensive area a.s the United States. What the cliche does not explain is that governmental decentralization accomplished through a federal system is far different from governmental decentralization by a central government decision in a unitary system. Shifting the focus from the constitutional, legal aspects of federalism to the political, policy aspects--from layer cake federalism to marble cake or picket fence federalism-has obscured the fact that the fifty states are separate entities of government, each with its source of power in the United States Constitution. While that document imposes certain uniform requirements and certain uniform prohibitions and lays the groundwork for additional uniform requirements to be promulgated by the national legislature, executive, and judiciary in fulfillment of their respective constitutional objectives and obligations, the state governments are no mere creatures of the central government as is the case in a unitary system
Compound nuclear decay and the liquid to vapor phase transition: a physical picture
Analyses of multifragmentation in terms of the Fisher droplet model (FDM) and
the associated construction of a nuclear phase diagram bring forth the problem
of the actual existence of the nuclear vapor phase and the meaning of its
associated pressure. We present here a physical picture of fragment production
from excited nuclei that solves this problem and establishes the relationship
between the FDM and the standard compound nucleus decay rate for rare particles
emitted in first-chance decay. The compound thermal emission picture is
formally equivalent to a FDM-like equilibrium description and avoids the
problem of the vapor while also explaining the observation of Boltzmann-like
distribution of emission times. In this picture a simple Fermi gas thermometric
relation is naturally justified and verified in the fragment yields and time
scales. Low energy compound nucleus fragment yields scale according to the FDM
and lead to an estimate of the infinite symmetric nuclear matter critical
temperature between 18 and 27 MeV depending on the choice of the surface energy
coefficient of nuclear matter.Comment: Five page two column pages, four figures, submitted to Phys. Rev.
Mapping the perturbation potential of metallic and dipolar tips in tunneling spectroscopy on MoS2
Scanning tunneling spectroscopy requires the application of a potential difference between the sample and a tip. In metal-vacuum-metal junctions, one can safely assume that the potential is constant along the metallic substrate. Here, we show that the inhomogeneous shape of the electric potential has to be taken into account when probing spatially extended molecules on a decoupling layer. To this end, oligothiophene-based molecules were deposited on a monolayer of molybdenum disulfide (MoS2) on a Au(111) surface. By probing the delocalized molecular orbital along the thiophene backbone, we found an apparent intramolecular shift of the positive ion resonance, which can be ascribed to a perturbation potential caused by the tip. Using a simple model for the electrostatic landscape, we show that such a perturbation is caused by the inhomogeneity of the applied bias potential in the junction and may be further modified by an electric dipole of a functionalized tip. The two effects can be disentangled in tunneling spectra by probing the apparent energy shift of vibronic resonances along the molecular backbone. We suggest that extended molecules on MoS2 can be used as a sensor for the shape of the electrostatic potential of arbitrary tips
Interactive Effects of Inducible Defense and Resource Availability on Phlorotannins in the North Atlantic Brown Alga \u3ci\u3eFucus vesiculosus\u3c/i\u3e
Research seeking to explain the ecological role of polyphenolics (phlorotannins) in plants and brown algae has largely focused on 2 alternative concepts, the carbon/nutrient (C/N) balance and the inducible defense models. We tested the hierarchy of effects of both models on phlorotannin production in the brown alga Fucus vesiculosus (Fucales) by simultaneously manipulating the N environment and simulating herbivory for 2 oceanic (high and low intertidal) and estuarine populations. We measured phlorotannin levels in algae under control, grazed, N-enriched, and grazed + N-enriched treatments with time (0 to 14 d) throughout the year to determine onset and duration of the response. We found greater support for the inducible defense model; generally, both grazed and grazed + N- enriched fronds had significantly higher phlorotannin concentrations than control thalli. When we found an inducible response, it was rapid (within 3 d) and relatively long term (\u3e2 wk). However, the induced response was minimal for both oceanic populations during March, perhaps due to fixed-C limitation, and was absent for the estuarine and high intertidal populations during June, the period of peak phlorotannins at both sites. Although N enrichment resulted in depressed concentrations of phlorotannins only for the estuarine population, we did measure a significant negative correlation between tissue N and phenolics for the oceanic population, as predicted by the C/N balance model. Thus, while the inducible defense response takes preeminence over resource availability effects (C/N balance hypothesis), this study revealed that phlorotannin production is likely controlled by a complex interaction of environmental, developmental and defense-related factors, emphasizing the applicability of both models in marine systems
Propulsion and Space Vehicle Systems Analysis Program Tensor I, volume I Technical report no. 341
Computer program for space vehicle and propulsion systems analysi
Sensitivity of low energy neutrino experiments to physics beyond the standard model
We study the sensitivity of future low energy neutrino experiments to extra
neutral gauge bosons, leptoquarks and R-parity breaking interactions. We focus
on future proposals to measure coherent neutrino-nuclei scattering and
neutrino-electron elastic scattering. We introduce a new comparative analysis
between these experiments and show that in different types of new physics it is
possible to obtain competitive bounds to those of present and future collider
experiments. For the cases of leptoquarks and R-parity breaking interactions we
found that the expected sensitivity for most of the future low energy
experimental setups is better than the current constraints.Comment: 21 pages, 5 figures. A more detailed analysis of systematic errors is
done. Final version to be published in PR
Electronic and magnetic properties of single chalcogen vacancies in MoS/Au(111)
Two-dimensional (2D) transition-metal dichalcogenides (TMDC) are considered
highly promising platforms for next-generation optoelectronic devices. Owing to
its atomically thin structure, device performance is strongly impacted by a
minute amount of defects. Although defects are usually considered to be
disturbing, defect engineering has become an important strategy to control and
design new properties of 2D materials. Here, we produce single S vacancies in a
monolayer of MoS on Au(111). Using a combination of scanning tunneling and
atomic force microscopy, we show that these defects are negatively charged and
give rise to a Kondo resonance, revealing the presence of an unpaired electron
spin exchange coupled to the metal substrate. The strength of the exchange
coupling depends on the density of states at the Fermi level, which is
modulated by the moir\'e structure of the MoS lattice and the Au(111)
substrate. In the absence of direct hybridization of MoS with the metal
substrate, the S vacancy remains charge-neutral. Our results suggest that
defect engineering may be used to induce and tune magnetic properties of
otherwise non-magnetic materials
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