32,478 research outputs found
Some Applications of Detailed Wind Profile Data to Launch Vehicle Response Problems
The response of a launch vehicle to a number of detailed wind profiles has been determined. The wind profiles were measured by two techniques which are briefly described. One of these techniques uses an angle-of-attack sensor in conjunction with guidance data to measure the wind profile traversed by some particular launch vehicle. The other wind-measuring technique is a photographic triangulation method, whereby two cameras take simultaneous pictures of a vertical trail of smoke left by a launch vehicle or sounding rocket. The response of a vehicle flying these detailed profiles is compared with the response of the same vehicle flying through balloon-measured profiles. The response to the detailed wind profiles, relative t o the balloon-measured profiles, is characterized by the large excitation of the rigid pitch and elastic bending modes. This is found to cause higher loads on the launch vehicle structure. Established design criteria which utilize balloon measured wind profiles have arbitrarily accounted-for this increased load by adding a load due to some type of discrete gust
Relative distributions of W's and Z's at low transverse momenta
Despite large uncertainties in the and transverse momentum
() distributions for q_T\lsim 10 GeV, the ratio of the distributions
varys little. The uncertainty in the ratio of to distributions is
on the order of a few percent, independent of the details of the
nonperturbative parameterization.Comment: 13 pages in revtex, 5 postscript figures available upon request,
UIOWA-94-0
Spacecraft Dynamics as Related to Laboratory Experiments in Space
Proceedings are presented of a conference sponsored by the Physics and Chemistry Experiments in Space Working Group to discuss the scientific and engineering aspects involved in the design and performance of reduced to zero gravity experiments affected by spacecraft environments and dynamics. The dynamics of drops, geophysical fluids, and superfluid helium are considered as well as two phase flow, combustion, and heat transfer. Interactions between spacecraft motions and the atmospheric cloud physics laboratory experiments are also examined
Dilepton production near partonic threshold in transversely polarized proton-antiproton collisions
It has recently been suggested that collisions of transversely polarized
protons and antiprotons at the GSI could be used to determine the nucleon's
transversity densities from measurements of the double-spin asymmetry for the
Drell-Yan process. We analyze the role of higher-order perturbative QCD
corrections in this kinematic regime, in terms of the available fixed-order
contributions as well as of all-order soft-gluon resummations. We find that the
combined perturbative corrections to the individual unpolarized and
transversely polarized cross sections are large. We trace these large
enhancements to soft gluon emission near partonic threshold, and we suggest
that with a physically-motivated cut-off enhancements beyond lowest order are
moderated relative to resummed perturbation theory, but still significant. The
unpolarized dilepton cross section for the GSI kinematics may therefore provide
information on the relation of perturbative and nonperturbative dynamics in
hadronic scattering. The spin asymmetry turns out to be rather robust,
relatively insensitive to higher orders, resummation, and the cut-offs.Comment: 23 pages, 19 figures as eps. Some discussion and references added.
Final version to appear in Phys. Rev.
Effects of Quark Spin Flip on the Collins Fragmentation Function in a Toy Model
The recent extension of the NJL-jet model to hadronization of transversely
polarized quarks allowed the study of the Collins fragmentation function. Both
favored and unfavored Collins fragmentation functions were generated, the
latter purely by multiple hadron emissions, with 1/2 moments of opposite sign
in the region of the light-cone momentum fraction accessible in current
experiments. Hints of such behavior has been seen in the measurements in
several experiments. Also, in the transverse momentum dependent (TMD) hadron
emission probabilities, modulations of up to fourth order in sine of the polar
angle were observed, while the Collins effect describes just the linear
modulations. A crucial part of the extended model was the calculation of the
quark spin flip probability after each hadron emission in the jet. Here we
study the effects of this probability on the resulting unfavored and favored
Collins functions by setting it as a constant and use a toy model for the
elementary single hadron emission probabilities. The results of the Monte Carlo
simulations showed that preferential quark spin flip in the elementary hadron
emission is needed to generate the favored and unfavored Collins functions with
opposite sign 1/2 moments. For the TMD hadron emission modulations, we showed
that the model quark spin flip probabilities are a partial source of the higher
rode modulations, while the other source is the Collins modulation of the
remnant quark from the hadron emission recoil.Comment: 7 pages, 6 figures. To appear in proceedings of HITES 2012,
Conference in Honor of Jerry P. Draayer, Horizons of Innovative Theories,
Experiments, and Supercomputing in Nuclear Physics, New Orleans, Louisiana,
June 4-7, 201
Cosmological models with flat spatial geometry
The imposition of symmetries or special geometric properties on submanifolds
is less restrictive than to impose them in the full space-time. Starting from
this idea, in this paper we study irrotational dust cosmological models in
which the geometry of the hypersurfaces generated by the fluid velocity is
flat, which supposes a relaxation of the restrictions imposed by the
Cosmological Principle. The method of study combines covariant and tetrad
methods that exploits the geometrical and physical properties of these models.
This procedure will allow us to determine all the space-times within this class
as well as to study their properties. Some important consequences and
applications of this study are also discussed.Comment: 12 pages, LaTeX2e, IOP style. To appear in Classical and Quantum
Gravit
Nonlinear feedback oscillations in resonant tunneling through double barriers
We analyze the dynamical evolution of the resonant tunneling of an ensemble
of electrons through a double barrier in the presence of the self-consistent
potential created by the charge accumulation in the well.
The intrinsic nonlinearity of the transmission process is shown to lead to
oscillations of the stored charge and of the transmitted and reflected fluxes.
The dependence on the electrostatic feedback induced by the self-consistent
potential and on the energy width of the incident distribution is discussed.Comment: 10 pages, TeX, 5 Postscript figure
Restoration of factorization for low hadron hadroproduction
We discuss the applicability of the factorization theorem to low-
hadron production in hadron-hadron collision in a simple toy model, which
involves only scalar particles and gluons. It has been shown that the
factorization for high- hadron hadroproduction is broken by soft gluons in
the Glauber region, which are exchanged among a transverse-momentum-dependent
(TMD) parton density and other subprocesses of the collision. We explain that
the contour of a loop momentum can be deformed away from the Glauber region at
low , so the above residual infrared divergence is factorized by means of
the standard eikonal approximation. The factorization is then restored in
the sense that a TMD parton density maintains its universality. Because the
resultant Glauber factor is independent of hadron flavors, experimental
constraints on its behavior are possible. The factorization can also be
restored for the transverse single-spin asymmetry in hadron-hadron collision at
low in a similar way, with the residual infrared divergence being
factorized into the same Glauber factor.Comment: 12 pages, 2 figures, version to appear in EPJ
Perturbative QCD Fragmentation Functions for and Production
The dominant production mechanism for bound states in high
energy processes is the production of a high energy or quark,
followed by its fragmentation into the state. We calculate the
fragmentation functions for the production of the S-wave states and
to leading order in the QCD coupling constant. The fragmentation
probabilities for and
are approximately and , while those
for and are smaller by almost two
orders of magnitude.Comment: Latex, 12 pages, 3 figures available upon request, NUHEP-TH-93-
Uptake of advanced clinical practice roles in the health service in England: perspectives at the micro level
Health care organisations in many countries are developing advanced clinical practitioner roles to address workforce shortages and growing demand for services. Even in countries where advanced practice roles are more established there are low numbers, clustered in a limited range of professions, mostly nursing specialities. Successful implementation of national policies encouraging increased advanced practice roles and from a broader range of professions, requires attention to all levels of the health system. There is a lack of evidence as to the motivation to take-up these roles at the micro, individual actor level. This study explored the motivations important at the micro level in influencing a range of health professionals to undertake advanced practice roles. The study used an interpretive methodology with thematic analysis and was framed by theories of motivational domains in the work environment. Semi-structured interviews were undertaken with eighteen advanced clinical practitioners working in health care organisations in England. The motivators for role take-up were found to be predominantly intrinsic reflecting participants’ desires for advancement, both personal and for their profession, and improved efficiency of patient care. Participants described experiencing limited organisational support and sometimes discouragement from other professionals. There is potential for health organisations at the meso level of health care systems to support national growth of advanced practice roles by giving attention to the motivations of diverse health professionals. We propose a new theoretical framework of motivators for advanced clinical practice role uptake at the micro level
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