Driving simulator for speed research on two-lane rural roads

Optical parametric chirped-pulse amplification (OPCPA) [Dubietis et al., Opt. Commun. 88, 437 (1992)] implemented by multikilojoule Nd:glass pump lasers is a promising approach to produce ultraintense pulses () would be used jointly with picosecond and nanosecond pulses produced by the other two beamlines. A midscale OPAL pumped by the Multi-Terawatt (MTW) laser is being constructed to produce 7.5-J, 15-fs pulses and demonstrate scalable technologies suitable for the upgrade. MTW OPAL will share a target area with the MTW laser (50 J, 1 to 100 ps), enabling several joint-shot configurations. We report on the status of the MTW OPAL system, and the technology development required for this class of all-OPCPA laser system for ultraintense pulses.

/pdf/technology-development-for-ultraintense-all-opcpa-systems-10mq3ju54o.pdf

Technology development for ultraintense all-OPCPA systems

This report recommends traffic signal displays for protected/permissive left-turn control The recommendations are based on a comprehensive evaluation of the safety and effectiveness of alternative traffic signal displays and phasing through laboratory and field studies These studies are summarized in the report and detailed information on them is available on the enclosed CD-ROM, CRP-CD-35 Traffic signal designers and operators will find the report informative, as will those interested in human factors research A key audience for the report will be those responsible for the "Manual on Uniform Traffic Control Devices" (MUTCD) because it is intended that the recommendations be considered for the next edition

Evaluation of traffic signal displays for protected/permissive left-turn control

The objective of this research was to determine the safety and effectiveness of selected protected/permissive left-turn (PPLT) signal displays through driver comprehension evaluations. Driver evaluations were conducted using full-scale, fixed-base, fully-interactive driving simulators located at the University of Massachusetts and the Texas Transportation Institute. The PPLT displays were also evaluated in a static environment to provide comparison data. The 12 experimental PPLT signal displays evaluated differed in permissive indication, arrangement, location, and through movement indication. Each PPLT signal display included only the circular green ball and/or flashing yellow arrow permissive indications. Driver comprehension was determined from the distribution of correct and incorrect responses. Findings from the driving simulator study showed a high level of comprehension (91%) with no variation between PPLT displays. The lack of significant differences in driver comprehension is itself a significant finding, indicating the flashing yellow arrow is an alternative to the circular green ball permissive indication.

Evaluation of Traffic Signal Displays for Protected-Permissive Left-Turn Control Using Driving Simulator Technology

An approach for the theoretical evaluation of the damage threshold in optical interference coatings that combine metal and dielectric films is presented. The model that is used combines a matrix formalism to describe the film system with the two temperatures model that describes the energy transfer and the temperatures of electrons and lattice in a solid submitted to a laser irradiation at the femtosecond time scale. With this approach the thermal consequences due to the ultrafast absorption of the metal film can be evaluated in the multilayer stack for single or multiple pulses. Some applications are presented for the case of broadband mirrors for ultrashort pulses with low dispersion. Particularly we study the impact of the metal film (metal element, thickness) and the design on the Laser Induced Damage Threshold in the sub picosecond regime.

https://www.fresnel.fr/perso/gallais/Wang%20et%20al.%20-%202013%20-%20Opt.%20Exp.-%20vol.%2021%20p.14698.pdf

A theoretical investigation of the laser damage threshold of metal multi-dielectric mirrors for high power ultrashort applications

Large-aperture deposition of high-laser-damage-threshold, low-dispersion optical coatings for 15 femtosecond pulses have been developed using plasma-ion-assisted electron-beam evaporation. Coatings are demonstrated over 10 in. aperture substrates.

Plasma-ion-assisted coatings for 15 femtosecond laser systems.

Electron-beam deposition of silica and alumina is used to fabricate distributed polarization rotators suitable for smoothing the intensity of large-aperture, high-peak-power lasers. Low-modulation, low-loss transmittance with a high 351-nm laser-damage threshold is achieved.

Electron-beam–deposited distributed polarization rotator for high-power laser applications

Birefringent magnesium oxide thin films are formed by glancing-angle deposition to perform as quarter-wave plates at a wavelength of 351 nm. These films are being developed to fabricate a large-aperture distributed-polarization rotator for use in vacuum, with an ultimate laser-damage–threshold goal of up to 12 J/cm2 for a 5-ns flat-in-time pulse. The laser-damage threshold, ease of deposition, and optical film properties are evaluated. While the measured large-area laser-damage threshold is limited to ~4 J/cm2 in vacuum, initial results based on small-spot testing in air (>20 J/cm2) suggest MgO may be suitable with further process development.

Glancing-angle–deposited magnesium oxide films for high-fluence applications

A study evaluated drivers' comprehension of several experimental five-section protected-permissive left-turn (PPLT) signal displays. A full-scale driving simulator and static driver study were used. Study methods were compared while evaluating drivers' comprehension and response to various combinations of five-section PPLT signal-display arrangements (horizontal, vertical, and cluster) and permissive left-turn indications (green ball, flashing red ball, flashing yellow ball, flashing red arrow, and flashing yellow arrow). The results showed that the type of five-section PPLT signal display arrangement has very little effect on driver comprehension of the permissive left-turn maneuver. The type of permissive indication used in five-section PPLT signal displays had a significant effect on driver comprehension, since the green ball, flashing yellow ball, and flashing yellow arrow were the best understood. When combining five-section PPLT signal-display arrangements and permissive indications, the five-section horizontal arrangement with a flashing-yellow-ball permissive indication had the highest level of driver comprehension. The lack of surrounding driving cues in the static driver study led to significantly higher fail-critical (serious) response rates. The green-ball permissive indication had a driver comprehension rate over 30% lower in the static study, clearly showing that drivers do not correctly comprehend the meaning of the green ball (assume it is protected) and use other information to make left-turn decisions while driving. The findings of this research show that driving simulation provides an effective study method and effectively replicates the actual driving environment. Simulators should be considered when conducting driver comprehension analyses.

Driving simulators for evaluation of novel traffic-control devices: Protected-permissive left-turn signal display analysis

Birefringent silica films are formed by glancing-angle deposition to fabricate quarter- and half-wave plates at a wavelength of 351 nm. A multilayer design is implemented to achieve low-loss transmittance with a high 351-nm laser-induced damage threshold.

Glancing-angle-deposited silica films for ultraviolet wave plates.

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