4,065 research outputs found
Energy Efficient Engine exhaust mixer model technology report addendum; phase 3 test program
The Phase 3 exhaust mixer test program was conducted to explore the trends established during previous Phases 1 and 2. Combinations of mixer design parameters were tested. Phase 3 testing showed that the best performance achievable within tailpipe length and diameter constraints is 2.55 percent better than an optimized separate flow base line. A reduced penetration design achieved about the same overall performance level at a substantially lower level of excess pressure loss but with a small reduction in mixing. To improve reliability of the data, the hot and cold flow thrust coefficient analysis used in Phases 1 and 2 was augmented by calculating percent mixing from traverse data. Relative change in percent mixing between configurations was determined from thrust and flow coefficient increments. The calculation procedure developed was found to be a useful tool in assessing mixer performance. Detailed flow field data were obtained to facilitate calibration of computer codes
Dipole excitation and geometry of borromean nuclei
We analyze the Coulomb breakup cross sections of Li and He nuclei
using a three-body model with a density-dependent contact interaction. We show
that the concentration of the B(E1) strength near the threshold can be well
reproduced with this model. With the help of the calculated B(E1) value, we
extract the root-mean-square (rms) distance between the core nucleus and the
center of mass of two valence neutrons without resorting to the sum rule, which
may suffer from unphysical Pauli forbidden transitions. Together with the
empirical rms distance between the neutrons obtained from the matter radius
study and also from the three-body correlation study in the break-up reaction,
we convert these rms distances to the mean opening angle between the valence
neutrons from the core nucleus. We find that the obtained mean opening angles
in Li and He agree with the three-body model predictions.Comment: 4 pages, 4 eps figure
A Simple Explanation for the X(3872) Mass Shift Observed for Decay to D^{*0} {D^0}bar
We propose a simple explanation for the increase of approximately
3 MeV/c^2 in the mass value of the X(3872) obtained from
D^{*0} {D^0}bar decay relative to that obtained from decay to J/psi pi+ pi-.
If the total width of the X(3872) is 2-3 MeV, the peak position in the
D^{*0} {D^0}bar invariant mass distribution is sensitive to the final state
orbital angular momentum because of the proximity of the X(3872) to D^{*0}
{D^0}bar threshold. We show that for total width 3 MeV and one unit of orbital
angular momentum, a mass shift ~3 MeV/c^2 is obtained; experimental mass
resolution should slightly increase this value. A consequence is that
spin-parity 2^- is favored for the X(3872).Comment: 3.5 pages, 4 eps figure
Cryogenic zero-gravity prototype vent system
Design, fabrication, and tests of prototype cryogenic zero-gravity heat exchanger vent syste
Low energy bounds on Poincare violation in causal set theory
In the causal set approach to quantum gravity, Poincar\'{e} symmetry is
modified by swerving in spacetime, induced by the random lattice discretization
of the space-time structure. The broken translational symmetry at short
distances is argued to lead to a residual diffusion in momentum space, whereby
a particle can acquire energy and momentum by drift along its mass shell and a
system in equilibrium can spontaneously heat up. We consider bounds on the rate
of momentum space diffusion coming from astrophysical molecular clouds, nuclear
stability and cosmological neutrino background. We find that the strongest
limits come from relic neutrinos, which we estimate to constrain the momentum
space diffusion constant by for neutrinos with
masses , improving the previously quoted bounds by
roughly 17 orders of magnitude.Comment: Additional discussion about behavior of alpha particles in nuclei
added. Version matches that accepted in PR
Motion Tomography of a single trapped ion
A method for the experimental reconstruction of the quantum state of motion
for a single trapped ion is proposed. It is based on the measurement of the
ground state population of the trap after a sudden change of the trapping
potential. In particular, we show how the Q function and the quadrature
distribution can be measured directly. In an example we demonstrate the
principle and analyze the sensibility of the reconstruction process to
experimental uncertainties as well as to finite grid limitations. Our method is
not restricted to the Lamb-Dicke Limit and works in one or more dimensions.Comment: 4 pages, Revtex format, 4 postscript figures, changed typographical
error
Turbofan forced mixer lobe flow modeling. Part 3: Application to augment engines
Military engines frequently need large quantities of thrust for short periods of time. The addition of an augmentor can provide such thrust increases but with a penalty of increased duct length and engine weight. The addition of a forced mixer to the augmentor improves performance and reduces the penalty, as well as providing a method for siting the required flame holders. In this report two augmentor concepts are investigated: a swirl-mixer augmentor and a mixer-flameholder augmentor. Several designs for each concept are included and an experimental assessment of one of the swirl-mixer augmentors is presented
Symmetry energy and neutron-proton radii studies with a Wigner-Heisenberg monopole-monopole interaction
The symmetry energy in nuclei is studied using a monopole-monopole two boby
interaction which has an isospin dependent term. A Hartree theory is developed
for this interaction which has an oscillator shell model basis with
corresponding shell structure. The role of shell structure on the symmetry
energy is then studied. We also find that the strength of the Heisenberg
interaction is very important for understanding the difference between proton
and neutron radii and features associated with halo nuclei.
PACS numbers: 21.10.Sf, 21.65Cd, 21.65EfComment: 1 table, i figur
Self-Criticism, Neediness, and Distress Among Women Undergoing Treatment for Breast Cancer: A Preliminary Test of the Moderating Role of Adjustment to Illness
A diagnosis of cancer can be extremely stressful, and for that reason, cancer patients’ adjustment has been widely studied. Little is known, however, about how patients’ personality vulnerabilities affect their adjustment to cancer. The present study examined the moderating role of several psychological strategies of adjustment to cancer in the associations between the personality predispositions of self-criticism and neediness and distress among women diagnosed with breast cancer. Portuguese women who had been diagnosed with breast cancer for the first time (n _ 50) completed the Depressive Experiences Questionnaire, the Hospital Anxiety and Depression Scale, and the Mini-Mental Adjustment to Cancer Scale questionnaires. Both self-criticism and neediness were found to be associated with increased levels of distress, with a stronger association observed for neediness. Hierarchical regressions indicated that more adaptive adjustment to cancer (i.e., low levels of helplessness/hopelessness, low levels of anxious preoccupation, high levels of fatalism, and high levels of fighting spirit) moderates
the association between neediness and distress. There was no evidence that any of the adjustment variables had any mediating effect on the relationship between the personality variables (self-criticism and neediness) and distress. Results are discussed in the context of personality vulnerability and maladaptive psychological response to the disease as a stressful life event. Implications for treatment are discussed. Though promising, the results are preliminary and more research on larger samples is warranted
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