7,011 research outputs found
Faculty Exhibition 2004
This is the catalogue of the exhibition "Faculty Exhibition" at Boston University Art Gallery
A flight instrumentation system for acquisition of atmospheric turbulence data
A flight instrumentation system for the acquisition of atmospheric turbulence data is described. Airflow direction transducers and an impact pressure transducer are the primary instruments for measuring vertical and lateral gust velocity, and a sensitive incremental pressure transducer is used to measure longitudinal gust velocity. Airplane motions, sensed by an inertial platform, are subtracted from the primary measurements during postflight data reduction to yield true gust velocity time histories. Salient engineering features of the instrumentation are discussed, and a complete description of the instrumentation is presented
A roll-pitch interaction simulator and a control position command encoder for remote piloting of spin-entry research models
The Langley Research Center uses radio-controlled, scaled aircraft models to study the spin-entry characteristics of aircraft. Recent spin-entry studies required the use of an electronic proportional-control system for manipulating model control surfaces. In order to meet control system requirements, a special-purpose analog computer was designed to simulate the coupling between roll and pitch controls. A digital encoder was designed to encode the voltage analogs of control-surface position into a special pulse format for transmission to the model. This paper describes the two special developments and their relationship to the functions of the overall control system
A navigation-aids identification decoder and display for general-aviation aircraft
Navigation-aids identification decoder and display device for general aviation aircraf
Wigner distributions and quark orbital angular momentum
We discuss the quark phase-space or Wigner distributions of the nucleon which
combine in a single picture all the information contained in the generalized
parton distributions and the transverse-momentum dependent parton
distributions. In particular, we present results for the distribution of
unpolarized quarks in a longitudinally polarized nucleon obtained in a
light-front constituent quark model. We show how the quark orbital angular
momentum can be extracted from the Wigner distributions and compare it with
alternative definitions.Comment: 8 pages, 2 figures, 1 table, contribution to the proceedings of the
QCD Evolution workshop 2012, May 14-17, JLa
The determination of the natural modes of vibration of the saturn sa-5 and sa-8 vehicles final summary report
Natural modes of vibration of Saturn I SA-5 and SA-8 launch vehicle
New aircraft instrument indicates turbulence intensity
System consists of accelerometer, indicator, and necessary electronic circuits for summing and averaging accelerations. Averaging-time feature enables pilot to see large values of accelerations over a short time or smaller accelerations over longer period of time
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The Impact of Industry Collaboration on Academic Research Output: A Dynamic Panel Data Analysis
The aim of this paper is to analyse the impact of university knowledge and technology transfer activities on academic research output. Specifically, we study whether researchers with collaborative links with the private sector publish less than their peers without such links, once controlling for other sources of heterogeneity. We report findings from a longitudinal dataset on researchers from two engineering departments in the UK between 1985 until 2006. Our results indicate that researchers with industrial links publish significantly more than their peers. Academic productivity, though, is higher for low levels of industry involvement as
compared to high levels
Quantum Inhomogeneities in String Cosmology
Within two specific string cosmology scenarios --differing in the way the
pre- and post-big bang phases are joined-- we compute the size and spectral
slope of various types of cosmologically amplified quantum fluctuations that
arise in generic compactifications of heterotic string theory. By further
imposing that these perturbations become the dominant source of energy at the
onset of the radiation era, we obtain physical bounds on the background's
moduli, and discuss the conditions under which both a (quasi-) scale-invariant
spectrum of axionic perturbations and sufficiently large seeds for the galactic
magnetic fields are generated. We also point out a potential problem with
achieving the exit to the radiation era when the string coupling is near its
present value.Comment: 30 pages, RevteX, epsfig, 5 figure
Dilaton Brane Cosmology with Second Order String Corrections and the Cosmological Constant
We consider, in five dimensions, the effective action from heterotic string
which includes quantum gravity corrections up to (a')^2. The expansion, in the
string frame, is in terms of |a'R|, where R is the scalar curvature and uses
the third order Euler density, next to the Gauss-Bonnet term. For a positive
tension brane and infinite extra dimension, the logarithmic class of solutions
is less dependent from fine-tuning problems than in previous formulations. More
importantly, the model suggests that in the full non-perturbative formulation,
the string scale can be much lower than the effective Planck mass, without the
string coupling to be vanishingly small. Also a less severe fine-tuning of the
brane tension in needed.Comment: 19 pages, 5 figures LaTeX. Accepted for publication in IJMP
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