Z3
 Quantum Double in a Superconducting Wire Array

Abstract We derive a partial electric-magnetic (PEM) duality transformation of the twisted quantum double (TQD) model TQD(G, α) — discrete Dijkgraaf-Witten model — with a finite gauge group G, which has an Abelian normal subgroup N , and a three-cocycle α ∈ H3(G, U(1)). Any equivalence between two TQD models, say, TQD(G, α) and TQD(G′, α′), can be realized as a PEM duality transformation, which exchanges the N-charges and N-fluxes only. Via the PEM duality, we construct an explicit isomorphism between the corresponding TQD algebras Dα(G) and Dα′(G′) and derive the map between the anyons of one model and those of the other.

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Laboratory astrophysics: 2D and 3D numerical modeling of jets and flows produced in wire array experiments

10.1063/1.1718496 ◽

2004 ◽

Cited By ~ 3

Author(s):

A. Ciardi

Keyword(s):

Numerical Modeling ◽

Wire Array ◽

Laboratory Astrophysics ◽

3D Numerical Modeling ◽

2D And 3D ◽

Jets And Flows

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Current transfer length of monofilamentary ex-situ MgB2:Al:Cu superconducting wire

10.1063/1.5052114 ◽

2018 ◽

Author(s):

Irshad Ahmad ◽

P. M. Sarun

Keyword(s):

Ex Situ ◽

Current Transfer ◽

Transfer Length ◽

Superconducting Wire

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Magnetization study of ITER-type internal-Sn Nb 3 Sn superconducting wire

Chinese Physics ◽

10.1088/1009-1963/16/6/048 ◽

2007 ◽

Vol 16 (6) ◽

pp. 1764-1769 ◽

Cited By ~ 6

Author(s):

Zhang Chao-Wu ◽

Zhou Lian ◽

Andre Sulpice ◽

Jean-Louis Soubeyroux ◽

Christophe Verwaerde ◽

...

Keyword(s):

Magnetization Study ◽

Superconducting Wire

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Effective Application of Magnetic Material Based on Metamaterial Absorber

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.774-776.907 ◽

2013 ◽

Vol 774-776 ◽

pp. 907-912

Author(s):

Hui Bin Zhang ◽

Li Wei Deng ◽

Nan Zhang ◽

Pei Heng Zhou ◽

Jian Liang Xie ◽

...

Keyword(s):

Magnetic Material ◽

Design Method ◽

Copper Wire ◽

Wire Array ◽

Magnetic Loss ◽

Peak Position ◽

Metamaterial Absorber ◽

Absorption Peak ◽

Perfect Absorption ◽

Effective Application

We simulate, fabricate and measure a microwave absorber by introducing metamaterial design method to magnetic material. The proposed absorber is composed of periodic copper wire array, magnetic material coated on copper wires, a foam substrate and a bottom metal plane. The results show a nearly perfect absorption peak around 8.7GHz (simulated) and 7.6GHz (measured). Even though the electric and magnetic field distribution indicate that the absorption is a typical metamaterial absorption, the power loss is neither Ohmic nor dielectric loss but magnetic loss, which is different from typical metamaterial absorber. The skillful introduction of the magnetic loss improves the absorption performance, including the absorption bandwidth and intensity. The designed absorber shows an effective application of the magnetic material, which is only 1/60000 volume proportion of the total absorber. Dependences of the absorption on frequency and the coating volume of the magnetic material manifest that the coated magnetic material can adjust the absorption peak position and intensity. The absorber can be an attractive candidate of electromagnetic wave absorber.

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