28,477 research outputs found
Investigation of a drag reduction on a circular cylinder in rotary oscillation
Drag reduction in two-dimensional flow over a circular cylinder, achieved using rotary oscillation, was investigated with computational simulations. In the experiments of Tokumaru & Dimotakis (1991), this mechanism was observed to yield up to 80% drag reduction at Re = 15 000 for certain ranges of frequency and amplitude of sinusoidal rotary oscillation. Simulations with a high-resolution viscous vortex method were carried out over a range of Reynolds numbers (150–15 000) to explore the effects of oscillatory rotational forcing. Significant drag reduction was observed for a rotational forcing which had been very effective in the experiments. The impact of the forcing is strongly Reynolds number dependent. The cylinder oscillation appears to trigger a distinctive shedding pattern which is related to the Reynolds number dependence of the drag reduction. It appears that the source of this unusual shedding pattern and associated drag reduction is vortex dynamics in the boundary layer initiated by the oscillatory cylinder rotation. The practical efficiency of the drag reduction procedure is also discussed
Photocurrents in nanotube junctions
Photocurrents in nanotube p-n junctions are calculated using a
non-equilibrium Green function quantum transport formalism. The short-circuit
photocurrent displays band-to-band transitions and photon-assisted tunneling,
and has multiple sharp peaks in the infrared, visible, and ultraviolet ranges.
The operation of such devices in the nanoscale regime leads to unusual size
effects, where the photocurrent scales linearly and oscillates with device
length. The oscillations can be related to the density of states in the valence
band, a factor that also determines the relative magnitude of the photoresponse
for different bands.Comment: 5 pages, 4 figures, submitte
Solving the Schrödinger equation with use of 1/N perturbation theory
The large N expansion provides a powerful new tool for solving the Schrödinger equation. In this
paper, we present simple recursion formulas which facilitate the calculation. We do some numerical calculations which illustrate the speed and accuracy of the technique
Electro-expulsive separation system
An electro-expulsive system has one or more overlapped conductors, each comprising a flexible ribbon conductor, which is folded back on itself. The conductors are embedded in an elastomeric material. Large current pulses are fed to the conductors from power storage units. As a result of the antiparallel currents, the opposed segments of a conductor are forcefully separated and the elastomeric material is distended. Voids in the elastomer aid the separation of the conductor segments. The distention is almost instantaneous when a current pulse reaches the conductor and the distention tends to remove any solid body on the surface of the elastomeric material
Feasibility of Interstellar Travel
The feasibility of interstellar flight is discussed. Mathematical equations for single-stage and multistage rocket propulsion are developed; velocity data and transit times are presented. The conclusions indicate that interstellar travel is theoretically feasible by utilizing known staged nuclear-energy systems
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