8,157 research outputs found
Dynamics of a classical Hall system driven by a time-dependent Aharonov--Bohm flux
We study the dynamics of a classical particle moving in a punctured plane
under the influence of a strong homogeneous magnetic field, an electrical
background, and driven by a time-dependent singular flux tube through the hole.
We exhibit a striking classical (de)localization effect: in the far past the
trajectories are spirals around a bound center; the particle moves inward
towards the flux tube loosing kinetic energy. After hitting the puncture it
becomes ``conducting'': the motion is a cycloid around a center whose drift is
outgoing, orthogonal to the electric field, diffusive, and without energy loss
Functional requirements for onboard management of space shuttle consumables, volume 1
A study was conducted to determine the functional requirements for onboard management of space shuttle consumables. A generalized consumable management concept was developed for application to advanced spacecraft. The subsystems and related consumables selected for inclusion in the consumables management system are: (1) propulsion, (2) power generation, and (3) environmental and life support
Are there nodes in LaFePO, BaFe(AsP), and KFeAs ?
We reexamined the experimental evidences for the possible existence of the
superconducting (SC) gap nodes in the three most suspected Fe-pnictide SC
compounds: LaFePO, BaFe(AsP), and KFeAs. We
showed that while the -linear temperature dependence of the penetration
depth of these three compounds indicate extremely clean nodal gap
superconductors, the thermal conductivity data unambiguously showed that LaFePO and
BaFe(AsP) are extremely dirty, while KFeAs
can be clean. This apparently conflicting experimental data casts a serious
doubt on the nodal gap possibility on LaFePO and
BaFe(AsP).Comment: 11 pages, 5 figures A new section "4. Remark on the quantum
oscillation (QO) experiments" is adde
Microwave Conductivity of a High Purity d-wave Superconductor
The cusp-like behavior of the microwave conductivity observed in clean
ortho-II YBCuO at low temperature and low frequency is
shown to be related directly to a linear in frequency dependence of the
impurity scattering rate with a negligibly small value at zero frequency. In
the weak scattering limit, the conductivity decreases linearly with the
frequency. In the vortex state, assuming a random (Gaussian) distribution of
vortices, we show that the magnetic field profoundly alters the impurity
scattering rate, which now acquires a finite zero frequency value. As a
consequence, we predict a Drude-like line shape in the microwave conductivity
at low frequency.Comment: 3 figure
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