50,007 research outputs found
Closed-cycle gas dynamic laser design investigation
A conceptual design study was made of a closed cycle gas-dynamic laser to provide definition of the major components in the laser loop. The system potential application is for long range power transmission by way of high power laser beams to provide satellite propulsion energy for orbit changing or station keeping. A parametric cycle optimization was conducted to establish the thermodynamic requirements for the system components. A conceptual design was conducted of the closed cycle system and the individual components to define physical characteristics and establish the system size and weight. Technology confirmation experimental demonstration programs were outlined to develop, evaluate, and demonstrate the technology base needed for this closed cycle GDL system
Scattering in the atmosphere of Venus. Line profiles and phase curves for Rayleigh scattering
Spectral line profiles, curves of growth, and curves for the equivalent width of a line as a function of Venus phase angle are computed for a Rayleigh scattering cloud and compared with those for a cloud of isotropic scatterers. The results are similar for the two kinds of scattering, with the exception for the curves of equivalent width as a function of Venus phase angle. These latter curves exhibit the inverse phase effect and rule out the possibility that the scale height of the clouds can be much less than half the scale height of the gas
Planetary isophotes as a clue to aerosol characteristics
A study was conducted to see how much information could be extracted from the Mariner 9 Mars isophotes taken at a phase angle of approximately 60 deg. It was found that the Minnaert functions and both isotropic and Rayleigh scattering could easily be ruled out, and that it was essential to use forward-peaked phase functions, which were computed from Mie theory. Isophotes similar to those observed assuming a semi-infinite dust cloud with a considerable variation in particle properties and size distribution could be obtained, so long as the ratio of the multiply- to singly-scattered light was held within certain limits. These conditions are met by micron-sized, moderatly absorbing mineral grains whose mean size should not be much larger than a micron. It was also found that a dust cloud of finite optical thickness bounded from below by a Lambert ground would fit the isophote data
Electromagnetic contribution to charge symmetry violation in parton distributions
We report a calculation of the combined effect of photon radiation and quark
mass differences on charge symmetry violation (CSV) in the parton distribution
functions of the nucleon. Following a recent suggestion of Martin and Ryskin,
the initial photon distribution is calculated in terms of coherent radiation
from the proton as a whole, while the effect of the quark mass difference is
based on a recent lattice QCD simulation. The distributions are then evolved to
a scale at which they can be compared with experiment by including both QCD and
QED radiation. Overall, at a scale of 5 GeV, the total CSV effect on the
phenomenologically important difference between the and -quark
distributions is some 20\% larger than the value based on quark mass
differences alone. In total these sources of CSV account for approximately 40\%
of the NuTeV anomaly.Comment: 5 pages, 2 figure
Critical behavior of the three- and ten-state short-range Potts glass: A Monte Carlo study
We study the critical behavior of the short-range p-state Potts spin glass in
three and four dimensions using Monte Carlo simulations. In three dimensions,
for p = 3, a finite-size scaling analysis of the correlation length shows clear
evidence of a transition to a spin-glass phase at T_c = 0.273(5) for a Gaussian
distribution of interactions and T_c = 0.377(5) for a bimodal distribution.
These results indicate that the lower critical dimension of the 3-state Potts
glass is below three. By contrast, the correlation length of the ten-state (p =
10) Potts glass in three dimensions remains small even at very low temperatures
and thus shows no sign of a transition. In four dimensions we find that the p =
3 Potts glass with Gaussian interactions has a spin-glass transition at T_c
=0.536(3).Comment: 11 pages, 13 figures, 6 table
Quark-hadron duality constraints on \gamma Z box corrections to parity-violating elastic scattering
We examine the interference \gamma Z box corrections to parity-violating
elastic electron--proton scattering in the light of the recent observation of
quark-hadron duality in parity-violating deep-inelastic scattering from the
deuteron, and the approximate isospin independence of duality in the
electromagnetic nucleon structure functions down to Q^2 \approx 1 GeV^2.
Assuming that a similar behavior also holds for the \gamma Z proton structure
functions, we find that duality constrains the \gamma Z box correction to the
proton's weak charge to be \Re e\, \square_{\gamma Z}^V = (5.4 \pm 0.4) \times
10^{-3} at the kinematics of the Q_{\text{weak}} experiment. Within the same
model we also provide estimates of the \gamma Z corrections for future
parity-violating experiments, such as MOLLER at Jefferson Lab and MESA at
Mainz.Comment: 10 pages, 3 figures. Final version to be published in Phys. Lett.
Decoupled and linear quadratic regulator control of a large, flexible space antenna with an observer in the control loop
An analysis is performed to compare decoupled and linear quadratic regulator (LQR) procedures for the control of a large, flexible space antenna. Control objectives involve: (1) commanding changes in the rigid-body modes, (2) nulling initial disturbances in the rigid-body modes, or (3) nulling initial disturbances in the first three flexible modes. Control is achieved with two three-axis control-moment gyros located on the antenna column. Results are presented to illustrate various effects on control requirements for the two procedures. These effects include errors in the initial estimates of state variables, variations in the type, number, and location of sensors, and deletions of state-variable estimates for certain flexible modes after control activation. The advantages of incorporating a time lag in the control feedback are also illustrated. In addition, the effects of inoperative-control situations are analyzed with regard to control requirements and resultant modal responses. Comparisons are included which show the effects of perfect state feedback with no residual modes (ideal case). Time-history responses are presented to illustrate the various effects on the control procedures
BIOMECHANICS OF TAKEOFF TECHNIQUES IN MODIFIED JUMPING ACTIVITIES
Introduction
It is an accepted fact that a fast approach run is of significant
importance for success in certain jumping events, such as the long jump and triple jump. This claim is supported, at least subjectively, by the observation that several of the world's greatest jumpers have also been world-class sprinters. Theoretically, maximum distance in jumping requires that the jumper attain not only a high H y at the takeoff point but also some V y as well, to ensure a sufficient flight time. Some horizontal jumpers intuitively place the takeoff leg well ahead of the center of gravity (C ofG) of the body and lean backwards in an effort to achieve a greater V y and thus a higher jump. Practical experience, however, dictates that "reaching" with the takeoff leg does not improve overall performance, perhaps because it causes a loss ofH y at the point of takeoff. It has been suggested that technique which emphasizes height in the jump might only increase the final V y at the expense of a greater reduction of H y (Tellez, 1980). That is, there might possibly be a trade off between vertical and horizontal velocities at takeoff
Pseudosteady-state analysis of nonlinear aircraft maneuvers
An analytical method was developed for studying the combined effects of rotational coupling and nonlinear aerodynamics on aircraft response for specified control inputs. The method involves the simultaneous solution of two nonlinear equations which are functions of angle attack, roll rate, and control inputs. The method was applied to a number of maneuvers for a fighter-type aircraft. Time history responses verified the usefulness of the analysis for predicting a variety of response characteristics caused by interacting nonlinear aerodynamic and inertial effects, including spin conditions
- …