2,902 research outputs found
Novel Edge States in Self-Dual Gravity
In contrast to the Einstein-Hilbert action, the action for self-dual gravity
contains vierbeins. They are eleminated at the level of observables by an
gauge condition implied by the action. We argue that despite
this condition, new "edge" or superselected state vectors corresponding to maps
of the spheres at infinity to arise. They
are characterised by new quantum numbers and they lead to mixed states. For
black holes, they arise both at the horizon and the spatial infinity and may be
relevant for the black hole information paradox. Similar comments can be made
about the Einstein-Palatini action which uses vierbeins.Comment: 15 pages, reference added, some minor notational changes - no changes
in conclusio
Rotor Eddy-Current loss in permanent-magnet brushless AC machines
This paper analyzes rotor eddy-current loss in permanent-magnet brushless ac machines. It is shown that analytical or finite-element techniques published in literature for predicting rotor eddy-current loss using space harmonic based approaches may not yield correct results in each magnet segment when one magnet-pole is circumferentially segmented into more than two pieces. It is also shown that the eddy-current loss in each equally segmented piece may differ by a large margin, which implies that the temperature distribution in the magnets will be uneven and the risk of demagnetization has to be carefully assessed. The theoretical derivation is validated by time-stepped transient finite-element analysis
Friction of a slider on a granular layer: Non-monotonic thickness dependence and effect of boundary conditions
We investigate the effective friction encountered by a mass sliding on a
granular layer as a function of bed thickness and boundary roughness
conditions. The observed friction has minima for a small number of layers
before it increases and saturates to a value which depends on the roughness of
the sliding surface. We use an index-matched interstitial liquid to probe the
internal motion of the grains with fluorescence imaging in a regime where the
liquid has no significant effect on the measured friction. The shear profiles
obtained as a function of depth show decrease in slip near the sliding surface
as the layer thickness is increased. We propose that the friction depends on
the degree of grain confinement relative to the sliding surfaces.Comment: 4 pages, 6 figure
Database independent Migration of Objects into an Object-Relational Database
This paper reports on the CERN-based WISDOM project which is studying the
serialisation and deserialisation of data to/from an object database
(objectivity) and ORACLE 9i.Comment: 26 pages, 18 figures; CMS CERN Conference Report cr02_01
Modeling And Simulation Of Micro-Manipulator Robotic System For Neurosurgery.
This research focuses on modeling and control simulation of a micro-manipulator robotic system model for neurosurgery application
AUV Controller Design And Analysis Using Full-State Feedback.
This paper presents the design and development of a system controller for our USM Autonomous Underwater Vehicle (USM-AUV). The state space design approach was used because this design approach is most suitable for nonlinear system and multi-input multi-output (MIMO) system set-up
Embedded Parallel Systolic Architecture For Multi-Filtering Techniques Using FPGA.
Computing systems typically suffer from delay in data processing
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