986 research outputs found
Sexual Violence as a Tool of Indigenous Genocide
Throughout American history, sexual violence against Native Americans has been an all-too common phenomenon. This ranges from outright rape to less obvious examples, including the desecration of native bodies and the separation of native children from their parents, such as at the boarding schools. Analyzing Sexual Violence as a Tool of Genocide by Andrea Smith, along with a variety of other sources, this article argues that sexual violence against native peoples reinforces the colonial idea that they are subhuman and rapable. Additionally, I also argue that this violence is used to subjugate not just native women, but all women, particularly white women
Dense packing crystal structures of physical tetrahedra
We present a method for discovering dense packings of general convex hard
particles and apply it to study the dense packing behavior of a one-parameter
family of particles with tetrahedral symmetry representing a deformation of the
ideal mathematical tetrahedron into a less ideal, physical, tetrahedron and all
the way to the sphere. Thus, we also connect the two well studied problems of
sphere packing and tetrahedron packing on a single axis. Our numerical results
uncover a rich optimal-packing behavior, compared to that of other continuous
families of particles previously studied. We present four structures as
candidates for the optimal packing at different values of the parameter,
providing an atlas of crystal structures which might be observed in systems of
nano-particles with tetrahedral symmetry
Nanowire metamaterials with extreme optical anisotropy
We study perspectives of nanowire metamaterials for negative-refraction
waveguides, high-performance polarizers, and polarization-sensitive biosensors.
We demonstrate that the behavior of these composites is strongly influenced by
the concentration, distribution, and geometry of the nanowires, derive an
analytical description of electromagnetism in anisotropic nanowire-based
metamaterials, and explore the limitations of our approach via
three-dimensional numerical simulations. Finally, we illustrate the developed
approach on the examples of nanowire-based high energy-density waveguides and
non-magnetic negative index imaging systems with far-field resolution of
one-sixth of vacuum wavelength.Comment: Updated version; accepted to Appl.Phys.Let
Exact Solution of an Octagonal Random Tiling Model
We consider the two-dimensional random tiling model introduced by Cockayne,
i.e. the ensemble of all possible coverings of the plane without gaps or
overlaps with squares and various hexagons. At the appropriate relative
densities the correlations have eight-fold rotational symmetry. We reformulate
the model in terms of a random tiling ensemble with identical rectangles and
isosceles triangles. The partition function of this model can be calculated by
diagonalizing a transfer matrix using the Bethe Ansatz (BA). The BA equations
can be solved providing {\em exact} values of the entropy and elastic
constants.Comment: 4 pages,3 Postscript figures, uses revte
Recursion and Path-Integral Approaches to the Analytic Study of the Electronic Properties of
The recursion and path-integral methods are applied to analytically study the
electronic structure of a neutral molecule. We employ a tight-binding
Hamiltonian which considers both the and valence electrons of carbon.
From the recursion method, we obtain closed-form {\it analytic} expressions for
the and eigenvalues and eigenfunctions, including the highest
occupied molecular orbital (HOMO) and the lowest unoccupied molecular orbital
(LUMO) states, and the Green's functions. We also present the local densities
of states around several ring clusters, which can be probed experimentally by
using, for instance, a scanning tunneling microscope. {}From a path-integral
method, identical results for the energy spectrum are also derived. In
addition, the local density of states on one carbon atom is obtained; from this
we can derive the degree of degeneracy of the energy levels.Comment: 19 pages, RevTex, 6 figures upon reques
Highly Confined Optical Modes in Nanoscale Metal-Dielectric Multilayers
We show that a stack of metal-dielectric nanolayers, in addition to the long-
and short-range plasmons, guides also an entire family of modes strongly
confined within the multilayer - the bulk plasmon modes. We propose the
classification scheme that reflects specific properties of these modes. We
report experimental verification of the bulk plasmon modes by measuring modal
indices in a structure made of three pairs of silica(29nm)/gold(25nm) layers.Comment: 4 pages, 4 figure
Magnetic Properties of Undoped
The Heisenberg antiferromagnet, which arises from the large Hubbard
model, is investigated on the molecule and other fullerenes. The
connectivity of leads to an exotic classical ground state with
nontrivial topology. We argue that there is no phase transition in the Hubbard
model as a function of , and thus the large solution is relevant for
the physical case of intermediate coupling. The system undergoes a first order
metamagnetic phase transition. We also consider the S=1/2 case using
perturbation theory. Experimental tests are suggested.Comment: 12 pages, 3 figures (included
Rules for Computing Symmetry, Density and Stoichiometry in a Quasi-Unit-Cell Model of Quasicrystals
The quasi-unit cell picture describes the atomic structure of quasicrystals
in terms of a single, repeating cluster which overlaps neighbors according to
specific overlap rules. In this paper, we discuss the precise relationship
between a general atomic decoration in the quasi-unit cell picture atomic
decorations in the Penrose tiling and in related tiling pictures. Using these
relations, we obtain a simple, practical method for determining the density,
stoichiometry and symmetry of a quasicrystal based on the atomic decoration of
the quasi-unit cell taking proper account of the sharing of atoms between
clusters.Comment: 14 pages, 8 figure
Water as a trophic currency in dryland food webs
Water is essential for life on Earth, yet little is known about how water acts as a trophic currency, a unit of value in determining species interactions in terrestrial food webs. We tested the relative importance of groundwater and surface water in riparian food webs by manipulating their availability in dryland floodplains. Primary consumers (crickets) increased in abundance in response to added surface water and groundwater (contained in moist leaves), and predators (spiders and lizards) increased in abundance in response to added surface water, in spite of the presence of a river, an abundant water source. Moreover, the relative magnitude of organism responses to added water was greatest at the most arid site and lowest at the least arid site, mirroring cricket recruitment, which was greatest at the least arid site and lowest at the most arid site. These results suggest that water may be a key currency in terrestrial dryland food webs, which has important implications for predicting ecosystem responses to human‐ and climate‐related changes in hydrology and precipitation
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