590 research outputs found
Lagrangian multiform structure for the lattice Gel'fand-Dikii hierarchy
The lattice Gel'fand-Dikii hierarchy was introduced by Nijhoff, Papageorgiou,
Capel and Quispel in 1992 as the family of partial difference equations
generalizing to higher rank the lattice Korteweg-de Vries systems, and includes
in particular the lattice Boussinesq system. We present a Lagrangian for the
generic member of the lattice Gel'fand-Dikii hierarchy, and show that it can be
considered as a Lagrangian 2-form when embedded in a higher dimensional
lattice, obeying a closure relation. Thus the multiform structure proposed in
arXiv:0903.4086v2 [nlin.SI] is extended to a multi-component system.Comment: 12 page
Automatic, computerized testing of bolts
System for testing bolts with various platings, lubricants, nuts, and tightening procedures tests 200 fasteners, and processes and summarizes the results, within one month. System measures input torque, nut rotation, bolt clamping force, bolt shank twist, and bolt elongation, data is printed in report form. Test apparatus is described
An integrable multicomponent quad equation and its Lagrangian formulation
We present a hierarchy of discrete systems whose first members are the
lattice modified Korteweg-de Vries equation, and the lattice modified
Boussinesq equation. The N-th member in the hierarchy is an N-component system
defined on an elementary plaquette in the 2-dimensional lattice. The system is
multidimensionally consistent and a Lagrangian which respects this feature,
i.e., which has the desirable closure property, is obtained.Comment: 10 page
Discrete-time Calogero-Moser system and Lagrangian 1-form structure
We study the Lagrange formalism of the (rational) Calogero-Moser (CM) system,
both in discrete time as well as in continuous time, as a first example of a
Lagrange 1-form structure in the sense of the recent paper [19]. The
discrete-time model of the CM system was established some time ago arising as a
pole-reduction of a semi-discrete version of the KP equation, and was shown to
lead to an exactly integrable correspondence (multivalued map). In this paper
we present the full KP solution based on the commutativity of the discrete-time
flows in the two discrete KP variables. The compatibility of the corresponding
Lax matrices is shown to lead directly to the relevant closure relation on the
level of the Lagrangians. Performing successive continuum limits on both the
level of the KP equation as well as of the CM system, we establish the proper
Lagrange 1-form structure for the continuum case of the CM model. We use the
example of the three-particle case to elucidate the implementation of the novel
least-action principle, which was presented in [19], for the simpler case of
Lagrange 1-forms.Comment: 37 pages, 8 figure
Ka-band (32-GHz) performance of 70-meter antennas in the Deep Space Network
Two models are provided of the Deep Space Network (DSN) 70 m antenna performance at Ka-band (32 GHz) and, for comparison purposes, one at X-band (8.4 GHz). The baseline 70 m model represents expected X-band and Ka-band performance at the end of the currently ongoing 64 m to 70 m mechanical upgrade. The improved 70 m model represents two sets of Ka-band performance estimates (the X-band performance will not change) based on two separately developed improvement schemes: the first scheme, a mechanical approach, reduces tolerances of the panels and their settings, the reflector structure and subreflector, and the pointing and tracking system. The second, an electronic/mechanical approach, uses an array feed scheme to compensate fo lack of antenna stiffness, and improves panel settings using microwave holographic measuring techniques. Results are preliminary, due to remaining technical and cost uncertainties. However, there do not appear to be any serious difficulties in upgrading the baseline DSN 70 m antenna network to operate efficiently in an improved configuration at 32 GHz (Ka-band). This upgrade can be achieved by a conventional mechanical upgrade or by a mechanical/electronic combination. An electronically compensated array feed system is technically feasible, although it needs to be modeled and demonstrated. Similarly, the mechanical upgrade requires the development and demonstration of panel actuators, sensors, and an optical surveying system
On the Lagrangian structure of 3D consistent systems of asymmetric quad-equations
Recently, the first-named author gave a classification of 3D consistent
6-tuples of quad-equations with the tetrahedron property; several novel
asymmetric 6-tuples have been found. Due to 3D consistency, these 6-tuples can
be extended to discrete integrable systems on Z^m. We establish Lagrangian
structures and flip-invariance of the action functional for the class of
discrete integrable systems involving equations for which some of the
biquadratics are non-degenerate and some are degenerate. This class covers,
among others, some of the above mentioned novel systems.Comment: 21 pp, pdfLaTe
Strong-field effects in the Rabi oscillations of the superconducting phase qubit
Rabi oscillations have been observed in many superconducting devices, and
represent prototypical logic operations for quantum bits (qubits) in a quantum
computer. We use a three-level multiphoton analysis to understand the behavior
of the superconducting phase qubit (current-biased Josephson junction) at high
microwave drive power. Analytical and numerical results for the ac Stark shift,
single-photon Rabi frequency, and two-photon Rabi frequency are compared to
measurements made on a dc SQUID phase qubit with Nb/AlOx/Nb tunnel junctions.
Good agreement is found between theory and experiment.Comment: 4 pages, 4 figures, accepted for publication in IEEE Trans. Appl.
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