5,959 research outputs found
Organizational Capacity and Progress Plateaus in the Flight Training Environment
Capacity is the ability of an organization to achieve its overall mission and satisfy stakeholder expectations. Stakeholders in a flight training organization include the owners and/or their representatives, flight school managers, instructor pilots, and the student pilots. This study was an examination of the organizational capacity of student pilots through a progress plateau theoretical lens using a mixed methodological approach and participants from a collegiate aviation program. Student pilot progress plateaus were found to have an adverse unrealized capacity consequence for the stakeholders in the organization. Recommendations to improve organizational capacity include the identification of progress plateaus utilizing flight training progress charts followed by the intervention of flight school leaders to resolve the plateau
The theory of heating of the quantum ground state of trapped ions
Using a displacement operator formalism, I analyse the depopulation of the
vibrational ground state of trapped ions. Two heating times, one characterizing
short time behaviour, the other long time behaviour are found. The short time
behaviour is analyzed both for single and multiple ions, and a formula for the
relative heating rates of different modes is derived. The possibility of
correction of heating via the quantum Zeno effect, and the exploitation of the
suppression of heating of higher modes to reduce errors in quantum computation
is considered.Comment: 9 pages, 2 figure
Double-beta decay Q values of 130Te, 128Te, and 120Te
The double-beta decay Q values of 130Te, 128Te, and 120Te have been
determined from parent-daughter mass differences measured with the Canadian
Penning Trap mass spectrometer. The 132Xe-129Xe mass difference, which is
precisely known, was also determined to confirm the accuracy of these results.
The 130Te Q value was found to be 2527.01(32) keV which is 3.3 keV lower than
the 2003 Atomic Mass Evaluation recommended value, but in agreement with the
most precise previous measurement. The uncertainty has been reduced by a factor
of 6 and is now significantly smaller than the resolution achieved or foreseen
in experimental searches for neutrinoless double-beta decay. The 128Te and
120Te Q values were found to be 865.87(131) keV and 1714.81(125) keV,
respectively. For 120Te, this reduction in uncertainty of nearly a factor of 8
opens up the possibility of using this isotope for sensitive searches for
neutrinoless double-electron capture and electron capture with positron
emission.Comment: 5 pages, 2 figures, submitted to Physical Review Letter
Mass measurements near the -process path using the Canadian Penning Trap mass spectrometer
The masses of 40 neutron-rich nuclides from Z = 51 to 64 were measured at an
average precision of using the Canadian Penning Trap mass
spectrometer at Argonne National Laboratory. The measurements, of fission
fragments from a Cf spontaneous fission source in a helium gas catcher,
approach the predicted path of the astrophysical process. Where overlap
exists, this data set is largely consistent with previous measurements from
Penning traps, storage rings, and reaction energetics, but large systematic
deviations are apparent in -endpoint measurements. Differences in mass
excess from the 2003 Atomic Mass Evaluation of up to 400 keV are seen, as well
as systematic disagreement with various mass models.Comment: 15 pages, 16 figures. v2 updated, published in Physical Review
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