12,686 research outputs found
Optical Turbulence Measurements and Models for Mount John University Observatory
Site measurements were collected at Mount John University Observatory in 2005
and 2007 using a purpose-built scintillation detection and ranging system.
profiling indicates a weak layer located at 12 - 14 km above sea
level and strong low altitude turbulence extending up to 5 km. During calm
weather conditions, an additional layer was detected at 6 - 8 km above sea
level. profiling suggests that tropopause layer velocities are nominally
12 - 30 m/s, and near-ground velocities range between 2 -- 20 m/s, dependent on
weather. Little seasonal variation was detected in either and
profiles. The average coherence length, , was found to be cm for
the full profile at a wavelength of 589 nm. The average isoplanatic angle,
, was arcsec. The mean turbulence altitude,
, was found to be km above sea level. No average in the
Greenwood frequency, , could be established due to the gaps present in the
\vw\s profiles obtained. A modified Hufnagel-Valley model was developed to
describe the profiles at Mount John, which estimates at 6 cm
and at 0.9 arcsec. A series of models were developed, based
on the Greenwood wind model with an additional peak located at low altitudes.
Using the model and the suggested model for moderate ground
wind speeds, is estimated at 79 Hz.Comment: 14 pages; accepted for publication in PAS
Navigation systems for approach and landing of VTOL aircraft
The formulation and implementation of navigation systems used for research investigations in the V/STOLAND avionics system are described. The navigation systems prove position and velocity in a cartestian reference frame aligned with the runway. They use filtering techniques to combine the raw position data from navaids (e.g., TACAN, MLS) with data from onboard inertial sensors. The filtering techniques which use both complementary and Kalman filters, are described. The software for the navigation systems is also described
Modification of nuclear transitions in stellar plasma by electronic processes: K-isomers in 176Lu and 180Ta under s-process conditions
The influence of the stellar plasma on the production and destruction of
K-isomers is studied for the examples 176Lu and 180Ta. Individual
electromagnetic transitions are enhanced predominantly by nuclear excitation by
electron capture, whereas the other mechanisms of electron scattering and
nuclear excitation by electron transition give only minor contributions. It is
found that individual transitions can be enhanced significantly for low
transition energies below 100 keV. Transitions with higher energies above 200
keV are practically not affected. Although one low-energy transition in 180Ta
is enhanced by up to a factor of 10, the stellar transition rates from low-K to
high-K states via so-called intermediate states in 176Lu and 180Ta do not
change significantly under s-process conditions. The s-process nucleosynthesis
of 176Lu and 180Ta remains essentially unchanged.Comment: 10 pages, 10 figures, Phys. Rev. C, accepte
The Conflicts Between Female Inmates\u27 Needs And Prisoners\u27 Goals
A comparison of the purposes behind the existence of male and female institutions reveals that several common goals exist: custody, deterrence, and rehabilitation. An examination of these goals of women\u27s prisons can be best understood in the context of whom they are aimed to serve. If the goals are to serve society alone, then the custody of female offenders is undoubtedly viewed as an accomplished goal, since society is protected and secure from the infliction of criminal acts by these female offenders. However, if the goals are directed at the inmates as well, deterrence of further criminal activity and rehabilitation have failed both the society and the inmates as workable goals. Women sentenced to prison frequently return; in fact, it has been estimated that anywhere from fifty to eighty-five percent are recidivists. Furthermore, the women are generally not rehabilitated. Upon release, they are ill-prepared to cope with life on the outside. One former inmate stated, You just come out BAMB. And you don\u27t know how to deal with it. You don\u27t have a family to go to half the time. You don\u27t have a home or job. . . . A lot of times the only thing left for a person to do is commit new crime. If one agrees with Herbert Packer that the goal of rehabilitation is justified by the desire to reform the offender so further criminal activity will cease, and that each offender must be treated individually according to her needs then one must ask, why are not female offenders rehabilitated?
This study attempts to develop an answer to this question by first researching the crimes committed by female offenders. The crimes committed reveal problems of which the prisons fail to take account. This leads to an inevitable conflict of prison goals with inmate needs. This conflict raises two alternatives: (1) one can work from the assumption that prisons will long continue in existence, so that any attempt to bring goals and needs closer together will have to be developed by working with the prison system, or (2) one can work from the assumption that alternatives to prison, as it is now known, must be found in order to effectuate the goals of prison and society and yet accommodate the needs of the female offenders
The Southern Debate Over Slavery
Primary Sources on American Slavery The Southern Debate over Slavery, Vol. I, Petitions to Southern State Legislatures, 1778-1864. Vol. II, Petitions to Southern County Courts, 1775-1867. The two volumes under review have their origin in the “Race and Slavery Petitions Projec...
Fragment Approach to Constrained Density Functional Theory Calculations using Daubechies Wavelets
In a recent paper we presented a linear scaling Kohn-Sham density functional
theory (DFT) code based on Daubechies wavelets, where a minimal set of
localized support functions is optimized in situ and therefore adapted to the
chemical properties of the molecular system. Thanks to the systematically
controllable accuracy of the underlying basis set, this approach is able to
provide an optimal contracted basis for a given system: accuracies for ground
state energies and atomic forces are of the same quality as an uncontracted,
cubic scaling approach. This basis set offers, by construction, a natural
subset where the density matrix of the system can be projected. In this paper
we demonstrate the flexibility of this minimal basis formalism in providing a
basis set that can be reused as-is, i.e. without reoptimization, for
charge-constrained DFT calculations within a fragment approach. Support
functions, represented in the underlying wavelet grid, of the template
fragments are roto-translated with high numerical precision to the required
positions and used as projectors for the charge weight function. We demonstrate
the interest of this approach to express highly precise and efficient
calculations for preparing diabatic states and for the computational setup of
systems in complex environments
Flight instrumentation specification for parameter identification: Program user's guide
A set of four digital computer programs is presented which can be used to investigate the effects of instrumentation errors on the accuracy of aircraft and helicopter stability-and-control derivatives identified from flight test data. The programs assume that the differential equations of motion are linear and consist of small perturbations about a quasi-steady flight condition. It is also assumed that a Newton-Raphson optimization technique is used for identifying the estimates of the parameters. Flow charts and printouts are included
Lamb Shift of 3P and 4P states and the determination of
The fine structure interval of P states in hydrogenlike systems can be
determined theoretically with high precision, because the energy levels of P
states are only slightly influenced by the structure of the nucleus. Therefore
a measurement of the fine structure may serve as an excellent test of QED in
bound systems or alternatively as a means of determining the fine structure
constant with very high precision. In this paper an improved analytic
calculation of higher-order binding corrections to the one-loop self energy of
3P and 4P states in hydrogen-like systems with low nuclear charge number is
presented. A comparison of the analytic results to the extrapolated numerical
data for high ions serves as an independent test of the analytic
evaluation. New theoretical values for the Lamb shift of the P states and for
the fine structure splittings are given.Comment: 33 pages, LaTeX, 4 tables, 4 figure
QED self-energy contribution to highly-excited atomic states
We present numerical values for the self-energy shifts predicted by QED
(Quantum Electrodynamics) for hydrogenlike ions (nuclear charge ) with an electron in an , 4 or 5 level with high angular momentum
(). Applications include predictions of precision transition
energies and studies of the outer-shell structure of atoms and ions.Comment: 20 pages, 5 figure
- …