855 research outputs found
Design sensitivity analysis of boundary element substructures
The ability to reduce or condense a three-dimensional model exactly, and then iterate on this reduced size model representing the parts of the design that are allowed to change in an optimization loop is discussed. The discussion presents the results obtained from an ongoing research effort to exploit the concept of substructuring within the structural shape optimization context using a Boundary Element Analysis (BEA) formulation. The first part contains a formulation for the exact condensation of portions of the overall boundary element model designated as substructures. The use of reduced boundary element models in shape optimization requires that structural sensitivity analysis can be performed. A reduced sensitivity analysis formulation is then presented that allows for the calculation of structural response sensitivities of both the substructured (reduced) and unsubstructured parts of the model. It is shown that this approach produces significant computational economy in the design sensitivity analysis and reanalysis process by facilitating the block triangular factorization and forward reduction and backward substitution of smaller matrices. The implementatior of this formulation is discussed and timings and accuracies of representative test cases presented
Treatment of body forces in boundary element design sensitivity analysis
The inclusion of body forces has received a good deal of attention in boundary element research. The consideration of such forces is essential in the desgin of high performance components such as fan and turbine disks in a gas turbine engine. Due to their critical performance requirements, optimal shapes are often desired for these components. The boundary element method (BEM) offers the possibility of being an efficient method for such iterative analysis as shape optimization. The implicit-differentiation of the boundary integral equations is performed to obtain the sensitivity equations. The body forces are accounted for by either the particular integrals for uniform body forces or by a surface integration for non-uniform body forces. The corresponding sensitivity equations for both these cases are presented. The validity of present formulations is established through a close agreement with exact analytical results
The Grizzly, February 26, 1982
Beta Sig Fears Charter Revocation • Wegman Graduates Valedictorian of Class of \u2782 • 600 for Special Olympics • Beginning of a Warless World • Library Friends Donate Lisle Papers • Medical Health Care in the United States • Intaglio Prints at Myrin • Band Plays Best Coffeehouse • Scholarship Competition Announced • Arts & Culture Abound This Week • Frat Pledge Classes of 1982 • Learn to Swim • Tri-Captains Triumphvirate • Overseas Hockey • Men\u27s Swimming Ends 7-3 • Men, Women Hoopsters Roll to MAC • Matmen Take Ninth • Strizki, Cantello Qualifyhttps://digitalcommons.ursinus.edu/grizzlynews/1074/thumbnail.jp
Error Rate of the Kane Quantum Computer CNOT Gate in the Presence of Dephasing
We study the error rate of CNOT operations in the Kane solid state quantum
computer architecture. A spin Hamiltonian is used to describe the system.
Dephasing is included as exponential decay of the off diagonal elements of the
system's density matrix. Using available spin echo decay data, the CNOT error
rate is estimated at approsimately 10^{-3}.Comment: New version includes substantial additional data and merges two old
figures into one. (12 pages, 6 figures
Predictions for Constrained Minimal Supersymmetry with Bottom-Tau Mass Unification
We examine the Constrained Minimal Supersymmetric Standard Model (CMSSM) with
an additional requirement of strict b - tau unification in the region of small
tan(beta). We find that the parameter space becomes completely limited below
about 1 TeV by physical constraints alone, without a fine-tuning constraint. We
study the resulting phenomenological consequences, and point out several ways
of falsifying the adopted b - tau unification assumption. We also comment on
the effect of a constraint from the non-observation of proton decay.Comment: Michigan preprint UM-TH-94-03, LaTeX, 18 pages with inline figures
(figures included in uuencoded file). Complete PS file also available by
anonymous FTP to williams.physics.lsa.umich.edu in
/pub/preprints/UM-TH-94-03.ps.Z or by e-mailing reques
Calculable Upper Limit on the Mass of the Lightest Higgs Boson in Any Perturbatively Valid Supersymmetric Theory
We show that there is a calculable upper limit on the mass of the lightest
Higgs boson in any supersymmetric theory that remains perturbative up to a high
scale . There are no restrictions on the Higgs sector, or the gauge group or
particle content. We estimate the value of the upper limit to be m_{\hcirc} <
146 GeV for 100 GeV < < 145 GeV, from all effects except possibly
additional heavy fermions beyond top (which could increase the limit by 0-20
GeV if any existed); for > 145 GeV the limit decreases monotonically. We
expect to be able to decrease the value of the upper limit by at least a few
percent by very careful analysis of the conditions. It is not normal in models
for the actual mass to saturate the upper limit.Comment: 8 pages, UM-TH-92-24, Plain TeX. (One table available by fax on
request to [email protected]
Addressing the Ethical, Legal, and Social Issues Raised by Voting by Persons with Dementia
This article addresses an emerging policy problem in the United States participation in the electoral process by citizens with dementia. At present, health care professionals, family caregivers, and long-term care staff lack adequate guidance to decide whether individuals with dementia should be precluded from or assisted in casting a ballot. Voting by persons with dementia raises a series of important questions about the autonomy of individuals with dementia, the integrity of the electoral process, and the prevention of fraud. Three subsidiary issues warrant special attention: development of a method to assess capacity to vote; identification of appropriate kinds of assistance to enable persons with cognitive impairment to vote; and formulation of uniform and workable policies for voting in long-term care settings. In some instances, extrapolation from existing policies and research permits reasonable recommendations to guide policy and practice. However, in other instances, additional research is necessary
Possible Signals of Constrained Minimal Supersymmetry at a High Luminosity Fermilab Tevatron Collider
We study the most promising signals of Constrained Minimal Supersymmetry
detectable at a luminosity upgraded 2 TeV Fermilab Tevatron collider. Using a
full event-level Monte Carlo based on Pythia/Jetset, we simulate the trilepton
signal examining in detail the effect of constraints on the parameter space. We
also simulate the monolepton and dilepton signals, the missing E_T + jets
signal, and the signals of stop production in supersymmetry all with full
Standard Model backgrounds with realistic detector cuts. We find that large
fractions of parameter space can be probed (or eliminated if no signal is
found), but mass limits on charginos and neutralinos are not possible based
solely on the trilepton signal. Detection efficiencies depend strongly on
supersymmetry parameters beyond simply the neutralino and chargino masses;
analyses (experimental or theoretical) that do not include this will draw
misleading conclusions. Finally, we comment on how searches at LEP II will
complement searches at Fermilab.Comment: 30 pages, LaTeX, 11 figures, now uses epsf.sty. Reference in text has
been corrected; references added. Figures have been included using uufiles.
Compressed PS file with embedded figures available via anonymous ftp at
ftp://williams.physics.lsa.umich.edu/pub/preprints/UM-TH-95-14.ps.
Trilepton Higgs signal at hadron colliders
Determining the origin of electroweak symmetry breaking will be one of the
primary functions of high energy colliders. We point out that most Higgs boson
searches pursued at hadron colliders require Yukawa interactions either in the
production or the decay of a Higgs boson. We propose a trilepton Higgs boson
search based only upon the gauge interactions of the Higgs. This strategy can
be utilized successfully for the standard model (SM) Higgs boson as well as
non-standard Higgs bosons which break electroweak symmetry but have little to
do with fermion mass generation. The trileptons come from Wh production
followed by Wh -> WWW^(*) -> 3l decays. A SM Higgs trilepton signal would be
difficult to detect at the Tevatron collider: with 100 fb^{-1} of data, only a
signal above background can be achieved after cuts if 140 GeV < mh <
175 GeV. Some discrimination of signal over background can be gained by
analyzing the opposite sign dilepton pT distributions. At the LHC with 30 (100)
fb^{-1} a clear discovery above the level is possible for a Higgs
mass in the range 140-185 (125-200) GeV. Prospects for a trilepton Higgs
discovery are greatly improved for models with non-standard Higgs sectors where
a Higgs boson couples preferentially to vector bosons rather than to fermions.Comment: 16 pages, latex, 11 figure
Detecting a light Higgs boson at the Fermilab Tevatron through enhanced decays to photon pairs
We analyze the prospects of the Tevatron for finding a Higgs boson in the two
photon decay mode. We conclude that the Standard Model (SM) Higgs boson will
likely not be discovered in this mode. However, we motivate several theories
beyond the SM, including the MSSM, that predict a Higgs boson with enhanced
branching fractions into photons, and calculate the luminosity needed to
discover a general Higgs boson at the Tevatron by a two-photon invariant mass
peak at large transverse momentum. We find that a high luminosity Tevatron will
play a significant role in discovering or constraining these theories.Comment: 20 pages, latex, 5 figure
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