Full-wave simulations of electromagnetic cloaking structures. - Wikidata - wikimedia - TriplyDB

Full-wave simulations of electromagnetic cloaking structures.

Full-wave simulations of electromagnetic cloaking structures.

http://www.wikidata.org/entity/Q51122985

about

Complementary Media Invisibility Cloak that Cloaks Objects at a Distance Outside the Cloaking Shell Ideal Cylindrical Cloak: Perfect but Sensitive to Tiny Perturbations Broadband Cylindrical Acoustic Cloak for Linear Surface Waves in a Fluid Cylindrical Invisibility Cloak with Simplified Material Parameters is Inherently Visible Panoramic lens designed with transformation optics.Add-on unidirectional elastic metamaterial plate cloak Optical Concentrators with Simple Layered Designs.Controlling chloride ions diffusion in concrete.A self-assembled three-dimensional cloak in the visible.Optical nanotrapping using cloaking metamaterial.Three-dimensional broadband ground-plane cloak made of metamaterials.Transmitting information of an object behind the obstacle to infinity Recent advances in transformation optics.Invisibility and cloaking based on scattering cancellation.Broadband polygonal invisibility cloak for visible light Observation of reflectionless absorption due to spatial Kramers-Kronig profile.Concealing with structured light.A Near Zero Refractive Index Metamaterial for Electromagnetic Invisibility Cloaking Operation.A Phase-Conjugate-Mirror Inspired Approach for Building Cloaking Structures with Left-handed Materials.Numerical method for designing approximate cloaks with arbitrary shapes.Analytical design of conformally invisible cloaks for arbitrarily shaped objects.Achieving transparency and maximizing scattering with metamaterial-coated conducting cylinders.A new look at the transformation electromagnetics approach for some real-world applications.Parallel-plate metamaterials for cloaking structures.Cloaking a sensor via transformation optics.Delay-bandwidth and delay-loss limitations for cloaking of large objects.Predicting double negativity using transmitted phase in space coiling metamaterials.Angular- and Polarization-insensitive Ultrathin Double-layered Metamaterial Absorber for Ultra-wideband Application.A wideband ultrathin low profile metamaterial microwave absorber Wideband metamaterial absorber based on CRRs with lumped elements for microwave energy harvesting Shrinking cloaks in expanding space-times: The role of coordinates and the meaning of transformations in transformation optics An Invisibility Cloak Using Silver Nanowires Electromagnetic transparency by coated spheres with radial anisotropy Designing optical elements from isotropic materials by using transformation optics A Novel Transformation Electromagnetic Theory-Based Coverage Optimization Method for Wireless Network

P2860

Q27336260-7DFF2F8D-470E-4F87-ADA2-FFAFABCEE73B Q27349078-DBE7FD78-A989-45A7-99AD-E7B463CC77BF Q27445644-F9EF3984-7AB7-491D-BF5F-7E9EDD98610D Q27455894-C0395599-A19F-491C-B672-1CF7C678B073 Q30365967-FCCC0DB9-6C0E-4042-A37B-FDA3FB94F584 Q30390888-48437FE0-4EA5-4902-A715-CD5FDE1034C5 Q30409047-1B05745F-65C6-4AF6-913A-D4E9E3965C51 Q30446442-42446D17-D592-4FBE-97D2-04DB6B383E77 Q30451147-5C62CAC1-684E-441B-9D13-47954C007B93 Q33434709-C2A6E02E-4EDA-4B22-A216-6E33A0AA0772 Q34313706-235DF717-B8C3-43F5-AC3D-F210743666F5 Q35953844-A6B9D4A9-9B4A-495D-8E5B-839383B4AE20 Q38030855-C832A88B-7D21-4CCA-84EF-5C94582F7399 Q38053379-E77BA8B2-D96B-4C96-92D3-14E116D499BF Q40968022-8926E142-9500-44BB-8FD1-E066FED03028 Q40971907-7DF12DC7-6413-4600-841C-8616EE2BD39B Q41812094-5D7A53EF-D371-469B-A47D-27ADF4F88692 Q42031216-2A37D3DB-D7E2-49D9-9ED5-3DDDCFE0B306 Q42926093-7C426588-3F89-49D9-B837-83285C7C2C82 Q47299867-09443736-8324-4075-8B6F-0A6A2F9EE5FC Q47441185-FF6F14DE-8A7B-49C5-A177-B766472F2A9E Q47951060-B3CD1FA3-955C-4D98-92C5-FAB9B1A558E9 Q50876009-5B3CDB6F-211A-4295-BF50-4056E6B80AFC Q51004919-B98B1BB1-07EA-4A88-8035-B6EE0E5ADD4C Q51591915-FE36D47F-FE49-4B4C-A1BC-047AD0F34912 Q51656184-E94B40CF-20C5-48B9-AF3C-DDEF8FE7DDC0 Q55154880-5994A6EF-6B1D-4521-9BA1-C46C4A739665 Q55436486-216D2585-F0AD-448F-BD43-B8B085297417 Q56915739-4473834C-D5F4-4776-84F5-FB6A689C5F67 Q57623262-0954407A-2AC8-4FF0-A914-3B094EFF1773 Q57737349-F9F006C6-F2A2-45E0-8C58-B8757E83A7AC Q58277193-588C2DB4-0F03-481B-B179-40C73EF918E6 Q58468921-2369DB31-B6B4-4EB7-8B38-63B48AD8E066 Q58775070-B0A79C26-1CE9-41F2-96B5-2662B6328388 Q58923330-12C4C05F-EC71-4680-B435-5E17FB334EF4

P2860

Full-wave simulations of electromagnetic cloaking structures.

http://www.wikidata.org/entity/Q51122985

description

2006 nî lūn-bûn

@nan

2006年の論文

@ja

2006年学术文章

@wuu

2006年学术文章

@zh

2006年学术文章

@zh-cn

2006年学术文章

@zh-hans

2006年学术文章

@zh-my

2006年学术文章

@zh-sg

2006年學術文章

@yue

2006年學術文章

@zh-hant

name

Full-wave simulations of electromagnetic cloaking structures.

@en

Full-wave simulations of electromagnetic cloaking structures.

@nl

type

label

Full-wave simulations of electromagnetic cloaking structures.

@en

Full-wave simulations of electromagnetic cloaking structures.

@nl

prefLabel

Full-wave simulations of electromagnetic cloaking structures.

@en

Full-wave simulations of electromagnetic cloaking structures.

@nl

P1433

Q51122985-5178EA3D-D844-4BC1-AD42-D4998378F4E9

P1476

Q51122985-95B864B6-58E0-48B7-8CB5-1624D8CA6D74

P2093

Q51122985-4AAF047E-B710-43AE-8D58-4A1269018F3E

Q51122985-71AECD6F-6177-4F44-81E8-1611B94D2847

Q51122985-8EDAE170-7919-41EE-A47A-6542427EBA72

Q51122985-CE2584DB-EEE6-485F-B0AB-20381867B140

Q51122985-FC2E6ED8-F997-4F11-8C4D-325C6B2C784E

P2860

Q51122985-3D3470CD-F1FA-4A5C-89DA-9E8DAE80DEA8

Q51122985-61D404D0-3C17-459A-A22D-19A09BF7C4C4

Q51122985-6675957B-E03C-4D80-9A15-7184EB71D7C7

Q51122985-679F96E3-B454-4582-A6EC-0A0C06317B6E

Q51122985-777BCEAE-9FE0-4183-84A8-112B20080D25

Q51122985-AE3EA257-B769-4534-9021-2E76CFFD73A9

Q51122985-BAA0C03B-B8D3-47AF-A10C-54A2281F8BD2

Q51122985-BCDD2C07-DA11-4946-8DC0-84D210412956

Q51122985-E3946396-5443-4894-AA73-3E2167024CEB

Q51122985-E9C707F2-5076-480A-9706-DE5F64932A41

P304

Q51122985-F5B583DA-8276-4263-872F-EEC82C118D73

P31

Q51122985-CC442536-18B3-4D63-8A06-0B6E4811417C

P356

Q51122985-980A7A1C-B865-414A-B978-0D90786AC31B

P407

Q51122985-3EE2D863-2052-4B2F-980A-0BEC1F4CEAAA

P433

Q51122985-FE161312-92BB-4826-BF42-6610304630EB

P478

Q51122985-CFEADDA9-B3F3-4678-A7B0-C45B7475CAB1

P577

Q51122985-CCDC78F2-94E7-4A06-95D1-54B9F557B53B

P5875

Q51122985-24E1EB08-57BF-47DB-A545-227ADE823E14

P698

Q51122985-64173B42-04F5-4E9B-8403-3BADFF8EFB69

P818

Q51122985-3D6787D6-3CAB-4A00-9017-2740A9426CB3

P356

PHYSREVE.74.036621

P1433

Physical Review E

P1476

Full-wave simulations of electromagnetic cloaking structures.

@en

P2093

Bogdan-Ioan Popa

http://www.w3.org/2001/XMLSchema#string

David R Smith

http://www.w3.org/2001/XMLSchema#string

David Schurig

http://www.w3.org/2001/XMLSchema#string

John Pendry

http://www.w3.org/2001/XMLSchema#string

Steven A Cummer

http://www.w3.org/2001/XMLSchema#string

P2860

Wave propagation in media having negative permittivity and permeability

Achieving transparency with plasmonic and metamaterial coatings

Overcoming the Diffraction Limit with a Planar Left-Handed Transmission-Line Lens

Controlling electromagnetic fields

Sub-diffraction-limited optical imaging with a silver superlens

Metamaterials and negative refractive index.

Optical conformal mapping.

Direct measurement of evanescent wave enhancement inside passive metamaterials.

Magnetism from conductors and enhanced nonlinear phenomena

Invisible Bodies and Uniqueness of the Inverse Scattering Problem

P304

036621

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1103/PHYSREVE.74.036621

http://www.w3.org/2001/XMLSchema#string

P407

P433

3 Pt 2

http://www.w3.org/2001/XMLSchema#string

P478

74

http://www.w3.org/2001/XMLSchema#string

P577

2006-09-27T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

6768830

http://www.w3.org/2001/XMLSchema#string

P698

17025778

http://www.w3.org/2001/XMLSchema#string

P818

physics/0607242

http://www.w3.org/2001/XMLSchema#string