3,303 research outputs found
Apparatus facilitates high-temperature tensile testing in vacuum
An apparutus for heating refractory materials to high temperatures during tensile testing includes a water-cooled stainless steel vacuum chamber. This contains a resistance heater consisting of a slit tube of tantalum or tungsten to enclose the tensile test rod
Providing Hope: Developing a Viable Regulatory Framework for Providing Terminally Ill Patients With Adequate Access to Investigational Drugs
âIf I die . . . I want my children to know I did everything I could.â This is a common feeling among terminally ill individuals facing death. This desire to exhaust every option often causes people to fight to receive potentially toxic and dangerous treatments that are still in the investigational phase if the treatment provides even a glimmer of hope for survival or improvement in condition. Investigational treatments, however, expose patients to myriad risks that can be difficult to predict. Jolee Mohrâs mysterious death provides a sad illustration of the dangers of investigational drugs. Mrs. Mohrâs physician recruited her for a clinical trial to test the safety of an investigational arthritis treatment. After she received the investigational treatment, Mrs. Mohr experienced intractable vomiting and increased body temperature. She subsequently slipped into unconsciousness, and her family made the decision to remove life support after doctors confirmed that she had no hope of recovery
High temperature testing apparatus Patent
Test apparatus for determining mechanical properties of refractory materials at high temperatures in vacuum or inert atmosphere
Electron Cloud Buildup Characterization Using Shielded Pickup Measurements and Custom Modeling Code at CESRTA
The Cornell Electron Storage Ring Test Accelerator experimental program
includes investigations into electron cloud buildup, applying various
mitigation techniques in custom vacuum chambers. Among these are two 1.1-m-long
sections located symmetrically in the east and west arc regions. These chambers
are equipped with pickup detectors shielded against the direct beam-induced
signal. They detect cloud electrons migrating through an 18-mm-diameter pattern
of small holes in the top of the chamber. A digitizing oscilloscope is used to
record the signals, providing time-resolved information on cloud development.
Carbon-coated, TiN-coated and uncoated aluminum chambers have been tested.
Electron and positron beams of 2.1, 4.0 and 5.3 GeV with a variety of bunch
populations and spacings in steps of 4 and 14 ns have been used. Here we report
on results from the ECLOUD modeling code which highlight the sensitivity of
these measurements to the physical phenomena determining cloud buildup such as
the photoelectron production azimuthal and energy distributions, and the
secondary yield parameters including the true secondary, re-diffused, and
elastic yield values.Comment: Presented at ECLOUD'12: Joint INFN-CERN-EuCARD-AccNet Workshop on
Electron-Cloud Effects, La Biodola, Isola d'Elba, Italy, 5-9 June 2012;
CERN-2013-002, pp. 241-25
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The Example of Laptop Based Performance Data Generating and Optimisation in Contemporary Commercial Aircraft Operations
Airframe and engine combination gives equal potential to every operator with such a hardware combination. Operator's way of utilization makes its use to the maximum or less. Data related to aircraft performance is one of the basic elements in daily aircraft operations and optimal utiliza-tion of airframe and engine combination in real life environment. New technological solutions and systems affected performance data calculation. Today's laptop computer technology has already boarded the flight deck together with pilots. This paper is to present possible structure and proposed application of one of the system together with envisaged effects of its use in real life commercial aircraft operations. It will present the over-view of the system with considerations taken into account when designing and developing it; it's potentials and advantages compared to paper based performance data calculation and optimiza-tion: and the most important how it is understood as a tool in very demanding, unpredictable air-line operations of today
Radio Loudness of AGNs: Host Galaxy Morphology and the Spin Paradigm
We investigate how the total radio luminosity of AGN-powered radio sources
depends on their accretion luminosity and the central black hole mass. We find
that AGNs form two distinct and well separated sequences on the radio-loudness
- Eddington-ratio plane. We argue that these sequences mark the real upper
bounds of radio-loudness of two distinct populations of AGNs: those hosted
respectively by elliptical and disk galaxies. Both sequences show the same
dependence of the radio-loudness on the Eddington ratio (an increase with
decreasing Eddington ratio), which suggests that another parameter in addition
to the accretion rate must play a role in determining the jet production
efficiency in active galactic nuclei, and that this parameter is related to
properties of the host galaxy. The revealed host-related radio dichotomy breaks
down at high accretion rates where the dominant fraction of luminous quasars
hosted by elliptical galaxies is radio quiet. We argue that the huge difference
between the radio-loudness reachable by AGNs in disc and elliptical galaxies
can be explained by the scenario according to which the spin of a black hole
determines the outflow's power, and central black holes can reach large spins
only in early type galaxies (following major mergers), and not (in a
statistical sense) in spiral galaxies.Comment: 7 pages, 4 figures included. Proceedings of the Workshop
`Extragalactic Jets: Theory and Observation from Radio to Gamma Ray',
Girdwood, May 200
Resolvent at low energy III: the spectral measure
Let be a complete noncompact manifold and an asymptotically
conic Riemaniann metric on , in the sense that compactifies
to a manifold with boundary in such a way that becomes a scattering
metric on . Let be the positive Laplacian associated to , and , where is a potential function obeying certain conditions. We
analyze the asymptotics of the spectral measure of , where , as , in a manner similar to that done
previously by the second author and Vasy, and by the first two authors. The
main result is that the spectral measure has a simple, `conormal-Legendrian'
singularity structure on a space which is obtained from by blowing up a certain number of boundary faces. We use this to
deduce results about the asymptotics of the wave solution operators and , and the Schr\"odinger
propagator , as . In particular, we prove the analogue
of Price's law for odd-dimensional asymptotically conic manifolds.
This result on the spectral measure has been used in a follow-up work by the
authors (arXiv:1012.3780) to prove sharp restriction and spectral multiplier
theorems on asymptotically conic manifolds.Comment: 42 pages, 4 figure
QPTAS and Subexponential Algorithm for Maximum Clique on Disk Graphs
A (unit) disk graph is the intersection graph of closed (unit) disks in the plane. Almost three decades ago, an elegant polynomial-time algorithm was found for Maximum Clique on unit disk graphs [Clark, Colbourn, Johnson; Discrete Mathematics '90]. Since then, it has been an intriguing open question whether or not tractability can be extended to general disk graphs. We show the rather surprising structural result that a disjoint union of cycles is the complement of a disk graph if and only if at most one of those cycles is of odd length. From that, we derive the first QPTAS and subexponential algorithm running in time 2^{O~(n^{2/3})} for Maximum Clique on disk graphs. In stark contrast, Maximum Clique on intersection graphs of filled ellipses or filled triangles is unlikely to have such algorithms, even when the ellipses are close to unit disks. Indeed, we show that there is a constant ratio of approximation which cannot be attained even in time 2^{n^{1-epsilon}}, unless the Exponential Time Hypothesis fails
Designing RNA secondary structures is hard
An RNA sequence is a word over an alphabet on four elements {A, C, G, U} called bases. RNA sequences fold into secondary structures where some bases match one another while others remain unpaired. Pseudoknot-free secondary structures can be represented as well-parenthesized expressions with additional dots, where pairs of matching parentheses symbolize paired bases and dots, unpaired bases. The two fundamental problems in RNA algorithmic are to predict how sequences fold within some model of energy and to design sequences of bases which will fold into targeted secondary structures. Predicting how a given RNA sequence folds into a pseudoknot-free secondary structure is known to be solvable in cubic time since the eighties and in truly subcubic time by a recent result of Bringmann et al. (FOCS 2016), whereas LyngsĂž has shown it is NP-complete if pseudoknots are allowed (ICALP 2004). As a stark contrast, it is unknown whether or not designing a given RNA secondary structure is a tractable task; this has been raised as a challenging open question by Anne Condon (ICALP 2003). Because of its crucial importance in a number of fields such as pharmaceutical research and biochemistry, there are dozens of heuristics and software libraries dedicated to RNA secondary structure design. It is therefore rather surprising that the computational complexity of this central problem in bioinformatics has been unsettled for decades.
In this paper we show that, in the simplest model of energy which is the Watson-Crick model the design of secondary structures is NP-complete if one adds natural constraints of the form: index i of the sequence has to be labeled by base b. This negative result suggests that the same lower bound holds for more realistic models of energy. It is noteworthy that the additional constraints are by no means artificial: they are provided by all the RNA design pieces of software and they do correspond to the actual practice (see for example the instances of the EteRNA project). Our reduction from a variant of 3-Sat has as main ingredients: arches of parentheses of different widths, a linear order interleaving variables and clauses, and an intended rematching strategy which increases the number of pairs iff the three literals of a same clause are not satisfied. The correctness of the construction is also quite intricate; it relies on the polynomial algorithm for the design of saturated structures â secondary structures without dots â by HaleĆĄ et al. (Algorithmica 2016), counting arguments, and a concise case analysis
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