1,003 research outputs found
An iwatsubo-based solution for labyrinth seals - comparison with experimental results
The basic equations are derived for compressible flow in a labyrinth seal. The flow is assumed to be completely turbulent in the circumferential direction where the friction factor is determined by the Blasius relation. Linearized zeroth and first-order perturbation equations are developed for small motion about a centered position by an expansion in the eccentricity ratio. The zeroth-order pressure distribution is found by satisfying the leakage equation while the circumferential velocity distribution is determined by satisfying the momentum equation. The first-order equations are solved by a separation of variables solution. Integration of the resultant pressure distribution along and around the seal defines the reaction force developed by the seal and the corresponding dynamic coefficients. The results of this analysis are compared to published test results
Preliminary experimental results for a cryogenic brush seal configuration
Preliminary fluid nitrogen flow data are reported for a five-brush, ceramic-coated-rub-runner brush seal system, where the brushes and the rub runner were placed at each end of a centrally pressurized multifunction tester ('back-to-back' set of brushes) and tested at rotor speeds of 0, 10, 18, and 22.5 krpm. After testing, both the brushes and the ceramic-coated rub runner appeared pristine. The coating withstood both the thermomechanical and dynamic loadings with minor wear track scarring. The bristle tips showed some indication of material shearing (smearing) wear. The Ergun porous flow equation was applied to the brush seal data. The Ergun relation, which required heuristic information to characterize the coefficients, fit the gaseous data but was in poor agreement with the fluid results. The brush seal exit conditions were two phase. Two-phase, choked-flow design charts were applied but required one data point at each rotor speed to define the (C(sub f)A x Constant) flow and area coefficients. Reasonable agreement between prediction and data was found, as expected, but such methods are not to be construed as two-phase-flow brush seal analyses
Photoluminescence modification by high-order photonic band with abnormal dispersion in ZnO inverse opal
We measured the angle- and polarization-resolved reflection and
photoluminescence spectra of ZnO inverse opals. Significant enhancement of
spontaneous emission is observed. The enhanced emission not only has good
directionality but also can be linearly polarized. A detailed theoretical
analysis and numerical simulation reveal that such enhancement is caused by the
abnormal dispersion of a high-order photonic band. The frozen mode at a
stationary inflection point of a dispersion curve can strongly modify the
intensity, directionality and polarization of spontaneous emission.Comment: 22 pages, 11 figures, figures modified, references added, more
explanation adde
Fiber transport of spatially entangled photons
Entanglement in the spatial degrees of freedom of photons is an interesting
resource for quantum information. For practical distribution of such entangled
photons it is desireable to use an optical fiber, which in this case has to
support multiple transverse modes. Here we report the use of a hollow-core
photonic crystal fiber to transport spatially entangled qubits.Comment: 4 pages, 4 figure
50 Jahre D-Mark
Im Laufe des letzten halben Jahrhunderts ist die Deutsche Mark zu einem Symbol für Stabilität geworden. Was läßt sich aus ihrer Geschichte für ihren Nachfolger, den Euro, lernen? Welche Chancen und Risiken sind mit der Ablösung der D-Mark verbunden? Welche Voraussetzungen müssen für eine stabile Entwicklung des Euro erfüllt sein
50 Jahre D-Mark
Im Laufe des letzten halben Jahrhunderts ist die Deutsche Mark zu einem Symbol für Stabilität geworden. Was läßt sich aus ihrer Geschichte für ihren Nachfolger, den Euro, lernen? Welche Chancen und Risiken sind mit der Ablösung der D-Mark verbunden? Welche Voraussetzungen müssen für eine stabile Entwicklung des Euro erfüllt sein? --
Spatiotemporal control of active topological defects
Topological defects play a central role in the physics of many materials,
including magnets, superconductors and liquid crystals. In active fluids,
defects become autonomous particles that spontaneously propel from internal
active stresses and drive chaotic flows stirring the fluid. The intimate
connection between defect textures and active flow suggests that properties of
active materials can be engineered by controlling defects, but design
principles for their spatiotemporal control remain elusive. Here we provide a
symmetry-based additive strategy for using elementary activity patterns, as
active topological tweezers, to create, move and braid such defects. By
combining theory and simulations, we demonstrate how, at the collective level,
spatial activity gradients act like electric fields which, when strong enough,
induce an inverted topological polarization of defects, akin to an exotic
negative susceptibility dielectric. We harness this feature in a dynamic
setting to collectively pattern and transport interacting active defects. Our
work establishes an additive framework to sculpt flows and manipulate active
defects in both space and time, paving the way to design programmable active
and living materials for transport, memory and logic.Comment: 37 pages (including Methods), 5 figures + 4 extended data figures.
Corrected some previous errors without change in result
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