Fig. 1. Schematic diagram of an on-chip system consisting of multiple functional modules (a) without the cloak and (b) with the designed thermal-electromagnetic cloak, respectively. (a) A central ...

The "cloaking technology," which manipulates electromagnetic waves to avoid detection by radar or sensors, has now been realized in the form of a flexible, stretchable material. Researchers at the ...

A domestic research team has developed a smart, transparent cloak-like technology that can hide electromagnetic waves better as it stretches and moves. It is expected to open new possibilities for ...

In the realm of materials science, electromagnetic (EM) metamaterials have emerged as a revolutionary class of engineered composites capable of manipulating electromagnetic waves in ways never before ...

DURHAM, N.C. — A team led by scientists at Duke University’s Pratt School of Engineering has demonstrated the first working “invisibility cloak.” The cloak deflects microwave beams so they flow around ...

DURHAM, N.C. — Using a new design theory, researchers at Duke University’s Pratt School of Engineering and Imperial College London have developed the blueprint for an invisibility cloak. Once devised, ...

University of Utah mathematicians developed a new cloaking method, and it’s unlikely to lead to invisibility cloaks like those used by Harry Potter or Romulan spaceships in “Star Trek.” Instead, the ...

Could Harry Potter's invisibility cloak be one step closer to becoming a reality? A research team from Queen Mary University of London's School of Electronic Engineering and Computer Science says it ...

What do Harry Potter's invisibility cloak and stealth fighter jets that evade radar have in common? They both make objects invisible despite their physical presence. Building upon this concept, a ...

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(a) Ideal homogenous zero-index medium. (b) Zero-index medium’s applications in free-space cloak, arbitrarily shaped waveguide, and photonic crystal surface emitting laser. (c) Schematic of Dirac-cone ...