1,419 research outputs found
Assessing the Perceptions and Attitudes of Burnout Syndrome in Nurse Practitioners in Primary Care Settings
The implications of workload and personal and patient-related burnout have been identified in numerous physicians’ studies. While burnout syndrome has become a subject of great interest for examining provider burnout to assess successful solutions, there is minimal research unique to nurse practitioners in primary care settings. This project was intended to determine the prevalence and effect of nurse practitioners’ burnout in primary care settings and make recommendations for improving nurse practitioners’ overall health and well-being. The key outcomes of concern for this project were, first, improvement in burnout scores on the Copenhagen Burnout Inventory tool pre- and posteducational intervention, and second, participation in an online survey. A 19-question pre- and postsurvey were sent to 600 nurse practitioners, yielding a 21% response rate (N = 75). Of the 75 respondents, the smallest and largest preintervention personal burnout score was 0, and the highest was 95. The results from this project suggest that additional research is warranted.
Keywords: Burnout, burnout syndrome, nurse practitioner, primary care, resiliency, retention in nurse practitioners, self-care, and quality of car
Metastable helium molecules as tracers in superfluid liquid He
Metastable helium molecules generated in a discharge near a sharp tungsten
tip operated in either pulsed mode or continuous field-emission mode in
superfluid liquid He are imaged using a laser-induced-fluorescence
technique. By pulsing the tip, a small cloud of He molecules is
produced. At 2.0 K, the molecules in the liquid follow the motion of the normal
fluid. We can determine the normal-fluid velocity in a heat-induced counterflow
by tracing the position of a single molecule cloud. As we run the tip in
continuous field-emission mode, a normal-fluid jet from the tip is generated
and molecules are entrained in the jet. A focused 910 nm pump laser pulse is
used to drive a small group of molecules to the vibrational state.
Subsequent imaging of the tagged molecules with an expanded 925 nm probe
laser pulse allows us to measure the velocity of the normal fluid. The
techniques we developed demonstrate for the first time the ability to trace the
normal-fluid component in superfluid helium using angstrom-sized particles.Comment: 4 pages, 7 figures. Submitted to Phys. Rev. Let
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