370 research outputs found
Electron Bunch Compression Due To RF Forces in An RF photoinjector for small RF Launch Phases
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Emittance growth of a short electron bunch in circular motion
A short electron bunch undergoing circular motion produces space-charge forces that do not decrease with increasing bunch energy, unlike those induced by straight-line motion. These energy-independent forces can be separated into a noninertial space-charge force and a coherent synchrotron radiation force. These forces result in an energy spread in the bunch, and can lead to a potentially large emittance growth. These effects can take place in both (1) bunch compression systems used to increase the peak current and (2) the wiggler itself Numerical estimates of the emittance growth in a wiggler for a 1-ps long, 1-mm radius, 1-nC electron bunch can be as large as 0.1 {pi} mm mrad per wiggle period; the energy spread can grow as much as 30 keV per wiggle period. These types of beam quality degradation may become significant for future, short-wavelength free-electron lasers requiring high-brightness electron beams, especially for self-amplified spontaneous emission operation
Laser Stabilization at 1536 nm Using Regenerative Spectral Hole Burning
Laser frequency stabilization giving a 500-Hz Allan deviation for a 2-ms integration time with drift reduced to 7 kHz/min over several minutes was achieved at 1536 nm in the optical communication band. A continuously regenerated spectral hole in the inhomogeneously broadened 4I15/2(1)!4I13/2(1) optical absorption of an Er31:Y2SiO5 crystal was used as the short-term frequency reference, while a variation on the locking technique allowed simultaneous use of the inhomogeneously broadened absorption line as a long-term reference. The reported frequency stability was achieved without vibration isolation. Spectral hole burning frequency stabilization provides ideal laser sources for high-resolution spectroscopy, real-time optical signal processing, and a range of applications requiring ultra-narrow-band light sources or coherent detection; the time scale for stability and the compatibility with spectral hole burning devices make this technique complementary to other frequency references for laser stabilization
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Annular-beam, 17 GHz free-electron maser experiment
Experiments have been conducted on a 15-17 GHz free electron maser (FEM) for producing a 500 MW output pulse with a phase stability appropriate for linear collider applications. The electron beam source was a 1 {mu}s, 800 kV, 5 kA, 6-cm-dia annular electron beam machine called BANSHEE. The beam interacted with the TM{sub 02} and TM{sub 03} mode Raman FEM amplifier in a corrugated cylindrical waveguide where the beam runs close to the interaction device walls to reduce the power density in the fields. This greatly reduced the kinetic energy loss caused by the beam potential depression associated with the space charge which was a significant advantage in comparison with conventional solid beam microwave tubes at the same beam current. The experiment was operated in a single shot mode with a large number of diagnostics to measure power, frequency and energy
Squamous Cell Carcinoma of the Skin and Coal Tar Creosote Exposure in a Railroad Worker
A 50-year-old male railroad worker presented to his primary care physician with an erythematous, tender skin lesion on the right knee; a biopsy of this lesion revealed squamous cell carcinoma in situ. The site of the lesion was sun-protected but had been associated with 30 years of creosote-soaked clothing. In this article, we review dermal and other malignancies associated with creosote, along with creosote occupational exposures and exposure limits. This is a unique case, given the lack of other, potentially confounding, polyaromatic hydrocarbons and the sun-protected location of the lesion
CoSyR: a novel beam dynamics code for the modeling of synchrotron radiation effects
The self-consistent nonlinear dynamics of a relativistic charged particle
beam interacting with its complete self-fields is a fundamental problem
underpinning many of the accelerator design issues in high brightness beam
applications, as well as the development of advanced accelerators.
Particularly, synchrotron radiation induced effects in a magnetic dispersive
beamline element can lead to collective beam instabilities and emittance
growth. A novel beam dynamic code is developed based on a Lagrangian method for
the calculation of the particles' radiation near-fields using wavefront/wavelet
meshes via the Green's function of the Maxwell equations. These fields are then
interpolated onto a moving mesh for dynamic update of the beam. This method
allows radiation co-propagation and self-consistent interaction with the beam
in the simulation at greatly reduced numerical errors. Multiple levels of
parallelisms are inherent in this method and implemented in our code CoSyR to
enable at-scale simulations of nonlinear beam dynamics on modern computing
platforms using MPI, multi-threading, and GPUs. CoSyR has been used to evaluate
the transverse and longitudinal coherent radiation effects on the beam and to
investigate beam optics designs proposed for mitigation of beam brightness
degradation in a magnetic bunch compressor. In this paper, the design of CoSyR,
as well as the benchmark with other coherent synchrotron radiation models, are
described and discussed.Comment: 17 pages, 14 figure
Childhood intermittent and persistent rhinitis prevalence and climate and vegetation: A global ecologic analysis
Background: The effect of climate change and its effects on vegetation growth, and consequently on rhinitis,are uncertain.Objective: To examine between- and within-country associations of climate measures and the normalizeddifference vegetation index with intermittent and persistent rhinitis symptoms in a global context.Methods: Questionnaire data from 6- to 7-year-olds and 13- to 14-year-olds were collected in phase 3 of theInternational Study of Asthma and Allergies in Childhood. Associations of intermittent (>1 symptom reportbut not for 2 consecutive months) and persistent (symptoms for -2 consecutive months) rhinitis symptomprevalences with temperature, precipitation, vapor pressure, and the normalized difference vegetation indexwere assessed in linear mixed-effects regression models adjusted for gross national income and populationdensity. The mean difference in prevalence per 100 children (with 95% confidence intervals [CIs]) perinterquartile range increase of exposure is reported.Results: The country-level intermittent symptom prevalence was associated with several country-levelclimatic measures, including the country-level mean monthly temperature (6.09-C; 95% CI, 2.06e10.11-C per 10.4-C), precipitation (3.10 mm; 95% CI, 0.46e5.73 mm; per 67.0 mm), and vapor pressure(6.21 hPa; 95% CI, 2.17e10.24 hPa; per 10.4 hPa) among 13- to 14-year-olds (222 center in 94 countries).The center-level persistent symptom prevalence was positively associated with several center-level climaticmeasures. Associations with climate were also found for the 6- to 7-year-olds (132 center in 57countries).Conclusion: Several between- and within-country spatial associations between climatic factors and intermittentand persistent rhinitis symptom prevalences were observed. These results provide suggestive evidencethat climate (and future changes in climate) may influence rhinitis symptom prevalence
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