Some experiences with active control of aeroelastic response

Flight and wind tunnel tests were conducted and multidiscipline computer programs were developed as part of investigations of active control technology conducted at the NASA Langley Research Center. Unsteady aerodynamics approximation, optimal control theory, optimal controller design, and the Delta wing and DC-10 models are described. The drones for aerodynamics and structural testing (DAST program) for evaluating procedures for aerodynamic loads prediction and the design of active control systems on wings with significant aeroelastic effects is described as well as the DAST model used in the wind tunnel tests

High energy terahertz pulses from organic crystals: DAST and DSTMS pumped at Ti:sapphire wavelength

High energy terahertz pulses are produced by optical rectification (OR) in organic crystals DAST and DSTMS by a Ti:sapphire amplifier system centered at 0.8 microns. The simple scheme provides broadband spectra between 1 and 5 THz, when pumped by collimated 60 fs near-infrared pump pulse and it is scalable in energy. Fluence-dependent conversion efficiency and damage threshold are reported as well as optimized OR at visible wavelength.Comment: 8 pages, 6 figure

Experiences with the design and implementation of flutter suppression systems

Research efforts aim at flutter suppression are discussed. The application of active controls technology to reduce the aeroelastic response of aircraft structures is discussed. Feedback control, control law design processes and synthesis, wind tunnel studies, and delta-wing wind tunnel models are discussed

Status and future plans of the Drones for Aerodynamic and Structural Testing (DAST) program

Results from flight tests of the ARW-1 research wing are presented. Preliminary loads data and experiences with the active control system for flutter suppression are included along with comparative results of test and prediction for the flutter boundary of the supercritical research wing and on performance of the flutter suppression system. The status of the ARW-2 research wing is given

GETTING OUT WHAT YOU PUT IN: An Evaluation of Public Investment in Irish Sport. RESEARCH SERIES NUMBER 4 OCTOBER 2008

This paper presents an economic analysis of the returns to public investment in Irish sport, which has increased dramatically over the past decade. It combines figures on spending by central government and state agencies with a relatively new and rapidly expanded body of research on participation in sport. The aim is to use what has become a substantial evidence base to assess whether Irish sports policy is likely to meet its stated aims of improving health and quality of life. Empirical findings support the view that there are significant health and social benefits to be had from participation in sport. However, the analysis challenges the way current policy addresses three trade-offs in the allocation of resources: the balance between “elite” and “grassroots” sport; the trade-off between investment in sporting facilities (physical capital) and participation programmes (human and social capital); and the allocation of public money across the range of different sporting activities. In each case, given the stated aims of policy and the evidence base, it is difficult to justify the current position. The paper concludes that the allocation of public investment in sport needs to be updated in light of recent findings

Generation of broadband THz pulses in organic crystal OH1 at room temperature and 10 K

We studied the effects of cryogenic cooling of a 2-[3-(4-hydroxystyryl)-5, 5-dimethylcyclohex-2-enylidene] malononitrile (OH1) crystal on the generation of broadband THz pulses via collinear optical rectification of 1350 nm femtosecond laser pulses. Cooling of the OH1 crystal from room temperature to 10 K leads to a ~10% increase of the pump-to-THz energy conversion efficiency and a shift of the THz pulse spectra to a higher frequency range. Both effects are due the temperature variation of THz absorption and the refractive index of the OH1 crystal. This conclusion has been verified by temperature dependent measurements of the linear absorption in the THz frequency region