jueves, 28 de marzo de 2013

A New Kind of Invisibility Cloak Demonstrates Better Cloaking Efficiency

ORIGINAL: Science Daily
by Staff
March 25, 2013 

Top: Color online) Snap-shots of Hz distributions for fwork=8 GHz at TM wave incidence on: (a) bare metallic cylinder with the radius 0.75 λwork; (b) the same target cloaked by the shell with material parameters prescribed by Eq. (7); (c) the same target cloaked by the multi-layer dielectric shell; (d) zoomed-in view of (c).
Bottom: (Color online) The TSCW spectra obtained by integrating the simulated far-fields for the cloaked and bare targets of two different sizes. Dimensional parameters of the multi-layer dielectric cloaks in both cases were fixed for the wavelength corresponding to fwork=8 GHz.

Using a new kind of cloak that uses a very thin multilayer dielectric coating made of natural material, not metamaterial, researchers at Michigan Technological University demonstrated better cloaking efficiency than a similarly sized metamaterial cloak designed by using the transformation optics relations.

Michigan Technological University’s invisibility cloak researchers have done it again. They’ve moved the bar on one of the holy grails of physics: making objects invisible.

Just last month, Elena Semouchkina, an associate professor of electrical and computer engineering at Michigan Tech, and her graduate student, Xiaohui Wang, reported successful experimental demonstration of the use of non-conductive ceramic metamaterials to cloak cylindrical objects from microwave-length electromagnetic waves. Previously, Semouchkina had designed a non-conductive glass metamaterial cloak that worked with infrared frequency waves, which are shorter than microwaves.

Then, scarcely was the ink dry on their report in the IEEE Microwave and Wireless Components Letters, a journal published by the Institute of Electrical and Electronics Engineers, when they developed a different cloaking approach and published it in the American Institute of Physics journal, Applied Physics Letters.

This time, they used ordinary dielectric materials such as ceramics having differing dielectric permittivity—a measure of the response of a substance to an electrical field— instead of metamaterials, which are artificial materials with properties not found in nature. They found that they were able to cloak larger cylindrical objects and cloak them more effectively than they had using metamaterials.

This research, just published online and supported by the National Science Foundation (NSF), also won Wang an honorable mention in an IEEE student papers competition. Wang’s paper will be listed in the Technical Program Booklet at an upcoming IEEE International Symposium on Antennas and Propagation. He received $1000 IEEE grant to travel to the symposium to present this work.

According to their report in the Applied Physics Letters article, Semouchkina and Wang designed a new kind of cloak that uses a very thin multilayer dielectric coating made of natural material, not metamaterial. They compared it through mathematical analysis and computer simulations to a metamaterial cloak of similar size but based on a different principle, called transformation optics.

The new cloak demonstrated better cloaking efficiency than did a similarly sized metamaterial cloak designed by using transformation optics relations,” said Semouchkina.

The new cloak outperforms previous cloaks, which caused more reflection and more shadows, as well as distortion of the electromagnetic waves, the researchers reported. It is eight to nine times thinner than metamaterial cloaks and much simpler to make, they noted.

The multi-layer dielectric cloak could easily be scaled to work in a variety of frequency ranges,” Semouchkina said. “The design procedure developed in this work could be used to further advance the cloak parameters and for adjusting it to practical needs.

Cloaking may sound like a magic trick or something out of a movie, but it could prove useful in national security, law enforcement or other applications.

Publication: Xiaohui Wang and Elena Semouchkina, “A route for efficient non-resonance cloaking by using multilayer dielectric coating,” Appl. Phys. Lett. 102, 113506 (2013); DOI:10.1063/1.4796171


Source: Jennifer Donovan, Michigan Technological University

Image: Michigan Technological University; Xiaohui Wang and Elena Semouchkina, DOI:10.1063/1.4796171

1 comentario:

  1. ¿Quién demonios ha traducido esto?
    La traducción es penosa, no se entiende nada.

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