767 research outputs found
Data acquisition from high-speed rotating shafts
Data system, when used with a rotary transformer, results in increased life, negligible noise, and capability for a large number of data channels in testing rotating equipment. It is used to multiplex many channels of analog transducer output data and convert this signal to binary digital output
Investigation of nonlinear absorption processes with femtosecond light pulses in lithium niobate crystals
The propagation of high-power femtosecond light pulses in lithium niobate crystals (LiNbO3) is investigated experimentally and theoretically in collinear pump-probe transmission experiments. It is found within a wide intensity range that a strong decrease of the pump transmission coefficient at wavelength 388 nm fully complies with the model of two-photon absorption; the corresponding nonlinear absorption coefficient is betap~=3.5 cm/GW. Furthermore, strong pump pulses induce a considerable absorption for the probe at 776 nm. The dependence of the probe transmission coefficient on the time delay Deltat between probe and pump pulses is characterized by a narrow dip (at Deltat~=0) and a long (on the picosecond time scale) lasting plateau. The dip is due to direct two-photon transitions involving pump and probe photons; the corresponding nonlinear absorption coefficient is betar~=0.9 cm/GW. The plateau absorption is caused by the presence of pump-excited charge carriers; the effective absorption cross section at 776 nm is sigmar~=8×10^–18 cm^2. The above nonlinear absorption parameters are not strongly polarization sensitive. No specific manifestations of the relaxation of hot carriers are found for a pulse duration of ~=0.24 ps
Femtosecond time-resolved absorption processes in lithium niobate crystals
emtosecond pump pulses are strongly attenuated in lithium niobate owing to two-photon absorption; the relevant nonlinear coefficient beta_p ranges from ~3.5 cm/GW for lambda_p = 388 nm to ~0.1 cm/GW for 514 nm. In collinear pump-probe experiments the probe transmission at the double pump wavelength 2lambda_p=776 nm is controlled by two different processes: A direct absorption process involving pump and probe photons (beta_r ~ or = 0.9 cm/GW) leads to a pronounced short-duration transmission dip, whereas the probe absorption by pump-excited charge carriers results in a long-duration plateau. Coherent pump-probe interactions are of no importance. Hot-carrier relaxation occurs on the time scale of < or ~0.1 ps
The Lewis Research Center geomagnetic substorm simulation facility
A simulation facility was established to determine the response of typical spacecraft materials to the geomagnetic substorm environment and to evaluate instrumentation that will be used to monitor spacecraft system response to this environment. Space environment conditions simulated include the thermal-vacuum conditions of space, solar simulation, geomagnetic substorm electron fluxes and energies, and the low energy plasma environment. Measurements for spacecraft material tests include sample currents, sample surface potentials, and the cumulative number of discharges. Discharge transients are measured by means of current probes and oscilloscopes and are verified by a photomultiplier. Details of this facility and typical operating procedures are presented
Development of environmental charging effect monitors for operational satellites
Design details and design goals are given of an instrumentation package to monitor the effects of the environmental charging of spacecraft surfaces on the systems of operational spacecraft
Highly tunable low-threshold optical parametric oscillation in radially poled whispering gallery resonators
Whispering gallery resonators (WGR's), based on total internal reflection,
possess high quality factors in a broad spectral range. Thus, nonlinear optical
processes in such cavities are ideally suited for the generation of broadband
or tunable electromagnetic radiation. Experimentally and theoretically, we
investigate the tunability of optical parametric oscillation in a radially
structured WGR made of lithium niobate. With a 1.04 /mum pump wave, the signal
and idler waves are tuned from 1.78 to 2.5 \mum - including the point of
degeneracy - by varying the temperature between 20 and 62 {\deg}C. A weak
off-centering of the radial domain structure extends considerably the tuning
capabilities. The oscillation threshold lies in the mW-power range.Comment: 4 pages, 5 figure
Maxwell-Drude-Bloch dissipative few-cycle optical solitons
We study the propagation of few-cycle pulses in two-component medium
consisting of nonlinear amplifying and absorbing two-level centers embedded
into a linear and conductive host material. First we present a linear theory of
propagation of short pulses in a purely conductive material, and demonstrate
the diffusive behavior for the evolution of the low-frequency components of the
magnetic field in the case of relatively strong conductivity. Then, numerical
simulations carried out in the frame of the full nonlinear theory involving the
Maxwell-Drude-Bloch model reveal the stable creation and propagation of
few-cycle dissipative solitons under excitation by incident femtosecond optical
pulses of relatively high energies. The broadband losses that are introduced by
the medium conductivity represent the main stabilization mechanism for the
dissipative few-cycle solitons.Comment: 38 pages, 10 figures. submitted to Physical Review
The Effect of Cost of Living on Employee Wages in the Hospitality Industry
This study examines the effect of cost of living (COL) on employee wages in the hotel industry. Although prior research clearly indicates that COL and wages are positively related, there is a lack of research explicitly considering the specific nature of the relationship between COL and wages, and potential moderators to the relationship. Using a dataset containing information on 97 jobs over 67 cities, our study shows that while there is a positive effect of COL on wages, the adjustment is not equal in magnitude to the difference that the COL levels would indicate. Furthermore, the effect of COL decreases as the average wage for the given job increases. We also show differences in COL’s effects for full-service versus limited-service hotels. We illustrate the implications of our findings by showing predicted wage rates for four jobs in five different cities, at both full-service and limit-service hotels. The study has implications for research, particularly for future work on COL and compensation. The findings also have important implications for practice, and may be particularly useful when managers need to set pay levels when local market data are unavailable
Support of Rock Cuts at Washington-Dulles International Airport
Expansions at the Washington-Dulles International Airport since 1999 have required extensive vertical, open-cut rock excavations in Triassic age siltstone bedrock. These excavations have extended to depths of up to approximately 65 ft (20 m) adjacent to existing infrastructure for construction of new below-ground stations for the new Automated People Mover (APM) light rail system. The selection of design support pressures for the rock excavations was an important decision, balancing the projects’ risks and construction costs. At the center of this issue was the development of a geotechnical model of the rock mass and its primary failure mechanism. Thus, a comprehensive subsurface characterization was required. The rock mass characterization included observation and mapping of excavation faces, detailed logging of rock cores, use of optical and acoustic televiewer, testing of discontinuity samples for shear strength evaluation, groundwater monitoring, and inclinometer monitoring of supported faces. The televiewer data, combined with site observations, allowed for a more complete understanding of the engineering characteristics of the bedding plane and joint discontinuities within the siltstone rock mass. Based on the pattern of the predominant discontinuities, it was concluded that bedding planes dipping into the excavation at approximately 30 degrees intersecting near-vertical joints would present the greatest risk for rock cut failures. Extensive laboratory testing and field inspections at a variety of exposed cuts with varying bedding plane and joint orientations suggested that the potential for a large slide along a bedding plane was relatively low. This conclusion was based on observations of discontinuous clay seams of limited number, the first- and second-order roughness of joint and bedding plane surfaces, and the limited persistence of joint and bedding plane discontinuities. Previous design lateral pressures for permanent station walls had been based on an assumed potential failure model of a large, excavation-scale block failure. However, using the recent characterization data, the rock mass failure mechanism of a local joint- and bedding-controlled sliding block mechanism was considered more appropriate. The resulting design lateral pressure necessary to support a rock face using this mechanism and the shear strength of discontinuities and intact rock was significantly lower than the initial design values. Construction-phase observations and monitoring, which included detailed field mapping, automated instrumentation monitoring, and groundwater monitoring, have verified the rock characterization and design assumptions. The reduction in design pressures for the permanent below-grade walls for the APM station structures resulted in major cost savings for the projects now in design and construction. Based on the scale of future expansion plans at Dulles, the projected total cost savings resulting from the reduced design lateral rock pressures will be considerable
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