9,611 research outputs found
Recommended from our members
Variational approach in weighted Sobolev spaces to scattering by unbounded rough surfaces
We consider the problem of scattering of time harmonic acoustic waves by an unbounded sound soft surface which is assumed to lie within a finite distance of some plane. The paper is concerned with the study of an equivalent variational formulation of this problem set in a scale of weighted Sobolev spaces. We prove well-posedness of this variational formulation in an energy space with weights which extends previous results in the unweighted setting [S. Chandler-Wilde and P. Monk, SIAM J. Math. Anal., 37 (2005), pp. 598–618] to more general inhomogeneous terms in the Helmholtz equation. In particular, in the two-dimensional case, our approach covers the problem of plane wave incidence, whereas in the three-dimensional case, incident spherical and cylindrical waves can be treated. As a further application of our results, we analyze a finite section type approximation, whereby the variational problem posed on an infinite layer is approximated by a variational problem on a bounded region
Study of EVA operations associated with satellite services
Extravehicular mobility unit (EMU) factors associated with satellite servicing activities are identified and the EMU improvements necessary to enhance satellite servicing operations are outlined. Areas of EMU capabilities, equipment and structural interfaces, time lines, EMU modifications for satellite servicing, environmental hazards, and crew training are vital to manned Eva/satellite services and as such are detailed. Evaluation of EMU capabilities indicates that the EMU can be used in performing near term, basic satellite servicing tasks; however, satellite servicing is greatly enhanced by incorporating key modifications into the EMU. The servicing missions involved in contamination sensitive payload repair are illustrated. EVA procedures and equipment can be standardized, reducing both crew training time and in orbit operations time. By standardizing and coordinating procedures, mission cumulative time lines fall well within the EMU capability
Convergence analysis of a multigrid algorithm for the acoustic single layer equation
We present and analyze a multigrid algorithm for the acoustic single layer
equation in two dimensions. The boundary element formulation of the equation is
based on piecewise constant test functions and we make use of a weak inner
product in the multigrid scheme as proposed in \cite{BLP94}. A full error
analysis of the algorithm is presented. We also conduct a numerical study of
the effect of the weak inner product on the oscillatory behavior of the
eigenfunctions for the Laplace single layer operator
Stochastic resonance in Gaussian quantum channels
We determine conditions for the presence of stochastic resonance in a lossy
bosonic channel with a nonlinear, threshold decoding. The stochastic resonance
effect occurs if and only if the detection threshold is outside of a "forbidden
interval". We show that it takes place in different settings: when transmitting
classical messages through a lossy bosonic channel, when transmitting over an
entanglement-assisted lossy bosonic channel, and when discriminating channels
with different loss parameters. Moreover, we consider a setting in which
stochastic resonance occurs in the transmission of a qubit over a lossy bosonic
channel with a particular encoding and decoding. In all cases, we assume the
addition of Gaussian noise to the signal and show that it does not matter who,
between sender and receiver, introduces such a noise. Remarkably, different
results are obtained when considering a setting for private communication. In
this case the symmetry between sender and receiver is broken and the "forbidden
interval" may vanish, leading to the occurrence of stochastic resonance effects
for any value of the detection threshold.Comment: 17 pages, 6 figures. Manuscript improved in many ways. New results on
private communication adde
Study of contamination of liquid oxygen by gaseous nitrogen First quarterly report, 1 Jul. - 30 Sep. 1964
Analytical model development for contamination study of liquid oxygen by gaseous nitroge
Noise and disturbance in quantum measurements: an information-theoretic approach
We introduce information-theoretic definitions for noise and disturbance in
quantum measurements and prove a state-independent noise-disturbance tradeoff
relation that these quantities have to satisfy in any conceivable setup.
Contrary to previous approaches, the information-theoretic quantities we define
are invariant under relabelling of outcomes, and allow for the possibility of
using quantum or classical operations to `correct' for the disturbance. We also
show how our bound implies strong tradeoff relations for mean square
deviations.Comment: v3: to appear on PRL (some issues fixed, supplemental material
expanded). v2: replaced with submitted version; 5 two-column pages + 6
one-column pages + 3 figures; one issue corrected and few references added.
v1: 17 pages, 3 figure
American Bishops and Religious Freedom: Legacy and Limits
This paper explores continuity and change in the American Catholic hierarchy’s promotion of and later reliance on religious freedom. With an analysis spanning more than 50 years, it first traces the pressures for reform that created the Declaration more than 50 years ago, demonstrating that American bishops were crucial actors in the Declaration’s existence and passage, and that this was the case because of the strong legitimacy pressures they were under as Roman Catholic leaders in a predominantly Protestant country. The paper then turns to a summary of how the Birth Control Mandate of the Affordable Care Act once again created pressures for legitimacy for the American Catholic hierarchy, pressures which were again articulated in terms of critiques of hypocrisy. It demonstrates that although the specific critique changed, accusations of hypocrisy remain central in discussions of the Catholic Church’s stance on the Birth Control Mandate in the Affordable Care Act
Readiness for kindergarten reading readiness work books
Thesis (Ed.M.)--Boston Universit
Editorial: Complex Religion: Intersections of Religion and Inequality
What is complex religion and how does it relate to social inclusion? Complex religion is a theory which posits that religion intersects with inequality, especially class, race, ethnicity and gender. The nine articles in this volume examine a wide array of ways that religion intersects with inequality, and how, as a result, it can create barriers to social inclusion. The issue begins with three articles that examine the role of religion and its intersection with race and racialization processes. It then moves to three articles that examine religion’s intersection with socioeconomic inequality. The issue closes with three studies of how religion’s relationship with the state creates and maintains various status hierarchies, even as some religious movements seek to combat inequality. Together, these articles enrichen our understanding of the complex task before anyone seeking to think about the role of religion in social inclusion
- …