6,016 research outputs found
Preserving the Sounds of the South
Joint paper delivered by Sean Street and David Lee, Director of the Wessex Film and sound Archive about the joint project, funded by the AHRC, to digitize and put online the Central Southern England Commercial Radio Archiv
Reversible and irreversible trapping at room temperature in poly(thiophene) thin-film transistors
We measured the bias stress characteristics of poly(thiophene)
semi-crystalline thin-film transistors (TFTs) as a function stress times, gate
voltages and duty-cycles. At room temperature, the bias stress has two
components: a fast reversible component and a slow irreversible component. We
hypothesize that the irreversible component is due to charge trapping in the
disordered areas of the semiconductor film. At low duty-cycle (<2%), the fast
bias stress component is reversed during the off-part of the cycle therefore
the observed VT shift in only caused by irreversible trapping. Irreversible
trapping follows power-law kinetics with a time exponent approximately equal to
0.37. We use these findings to estimate the lifetime of TFTs used as switches
in display backplanes
Designing protein β-sheet surfaces by Z-score optimization
Studies of lattice models of proteins have suggested that the appropriate energy expression for protein design may include nonthermodynamic terms to accommodate negative design concerns. One method, developed in lattice model studies, maximizes a quantity known as the "Z-score," which compares the lowest energy sequence whose ground state structure is the target structure to an ensemble of random sequences. Here we show that, in certain circumstances, the technique can be applied to real proteins. The resulting energy expression is used to design the β-sheet surfaces of two real proteins. We find experimentally that the designed proteins are stable and well folded, and in one case is even more thermostable than the wild type
Ultrafast harmonic mode-locking of monolithic compound-cavity laser diodes incorporating photonic-bandgap reflectors
We present the first demonstration of reproducible harmonic mode-locked operation from a novel design of monolithic semiconductor laser comprising a compound cavity formed by a 1-D photonic-bandgap (PBG) mirror. Mode-locking (ML) is achieved at a harmonic of the fundamental round-trip frequency with pulse repetition rates from 131 GHz up to a record high frequency of 2.1 THz. The devices are fabricated from GaAs-Al-GaAs material emitting at a wavelength of 860 nm and incorporate two gain sections with an etched PBG reflector between them, and a saturable absorber section. Autocorrelation studies are reported which allow the device behavior for different ML frequencies, compound cavity ratios, and type and number of intra-cavity reflectors to be analyzed. The highly reflective PBG microstructures are shown to be essential for subharmonic-free ML operation of the high-frequency devices. We have also demonstrated that the single PBG reflector can be replaced by two separate features with lower optical loss. These lasers may find applications in terahertz; imaging, medicine, ultrafast optical links, and atmospheric sensing
SRC Holdings: Winning The Game While Sharing The Prize
SRC Holdings Corporation, formerly Springfield Remanufacturing Corp., is a well-known manufacturing enterprise comprised of numerous companies spread across 12 Business Units engaged in activities ranging from manufacturing to packaging to management consulting and training. However, their primary business expertise and core competency is remanufacturing -- the process of taking used transportation parts, for example, and returning them to their OEM (original equipment manufacturer) specifications. Headquartered in Springfield, Missouri, the SRC story is one of tremendous financial success, virtually from the beginning of the organization in 1983. At that time, a share of stock was worth 10¢; as of 2012, a single share is valued at about $361! But although the company is well-known for its financial record, it is safe to say that it is most famous for its founder and current CEO, Jack Stack, and his insistence on converting his company into an employee-owned firm very early on. The subsequent success of SRC and the role its employee stock ownership plan (ESOP) played in this success is legendary. Thus, it’s not surprising that both the SRC ESOP and Jack Stack play central roles in this case study
Experimental comparison of dynamic tracking performanceof iGPS and laser tracker
External metrology systems are increasingly being integrated with traditional industrial articulated robots, especially in the aerospace industries, to improve their absolute accuracy for precision operations such as drilling, machining and jigless assembly. While currently most of the metrology assisted robotics control systems are limited in their position update rate, such that the robot has to be stopped in order to receive a metrology coordinate update, some recent efforts are addressed toward controlling robots using real-time metrology data. The indoor GPS is one of the metrology systems that may be used to provide real-time 6DOF data to a robot controller. Even if there is a noteworthy literature dealing with the evaluation of iGPS performance, there is, however, a lack of literature on how well the iGPS performs under dynamic conditions. This paper presents an experimental evaluation of the dynamic measurement performance of the iGPS, tracking the trajectories of an industrial robot. The same experiment is also repeated using a laser tracker. Besides the experiment results presented, this paper also proposes a novel method for dynamic repeatability comparisons of tracking instrument
Investigation of relationships between linears, total and hazy areas, and petroleum production in the Williston Basin: An ERTS approach
The author has identified the following significant results. ERTS-1 imagery in a variety of formats was used to locate linear, tonal, and hazy features and to relate them to areas of hydrocarbon production in the Williston Basin of North Dakota, eastern Montana, and northern South Dakota. Derivative maps of rectilinear, curvilinear, tonal, and hazy features were made using standard laboratory techniques. Mapping of rectilinears on both bands 5 and 7 over the entire region indicated the presence of a northeast-southwest and a northwest-southeast regional trend which is indicative of the bedrock fracture pattern in the basin. Curved lines generally bound areas of unique tone, maps of tonal patterns repeat many of the boundaries seen on curvilinear maps. Tones were best analyzed on spring and fall imagery in the Williston Basin. It is postulated that hazy areas are caused by atmospheric phenomena. The ability to use ERTS imagery as an exploration tool was examined where petroleum and gas are presently produced (Bottineau Field, Nesson and Antelope anticlines, Redwing Creek, and Cedar Creek anticline). It is determined that some tonal and linear features coincide with location of present production in Redwing and Cedar Creeks. In the remaining cases, targets could not be sufficiently well defined to justify this method
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