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High-temperature plasmonics eyed for solar, computer innovation

April 18, 2014 8:09 am | by Emil Venere, Purdue Univ. | News | Comments

New plasmonic metamaterials that operate at high temperatures could radically improve solar cell performance and bring advanced computer data storage technology that uses heat to record information on a magnetic disk. The materials could make it possible to harness clouds of electrons called surface plasmons to manipulate and control light.

Researchers develop first phononic crystal that can be altered in real time

April 1, 2014 8:56 am | News | Comments

Using an acoustic metadevice that can influence...

Rainbow-catching waveguide could revolutionize energy technologies

March 28, 2014 11:50 am | by Cory Nealon, Univ. at Buffalo | News | Comments

More efficient photovoltaic cells. Improved radar and stealth technology. A new way to recycle...

Ultra-thin light detectors combine two very different technologies

March 27, 2014 9:36 am | News | Comments

Until now, it has been hard to couple light...

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Brighter inks, without pigment

March 17, 2014 7:57 am | by Manny Morone '14, Harvard Univ. | News | Comments

Researchers at the Harvard Univ. School of Engineering and Applied Sciences are giving man-made materials structural color. Producing structural color is not easy, though; it often requires a material’s molecules to be in a very specific crystalline pattern, like the natural structure of an opal, which reflects a wide array of colors.

Nanoscale optical switch breaks miniaturization barrier

March 14, 2014 10:15 am | by David Salisbury, Vanderbilt Univ. | News | Comments

An ultra-fast and ultra-small optical switch has been invented that could advance the day when photons replace electrons in the innards of consumer products ranging from cell phones to automobiles. The new optical device can turn on and off trillions of times per second and consists of tiny individual switches made of a metamaterial that uses vanadium dioxide.

Acoustic cloaking device hides objects from sound

March 12, 2014 7:35 am | by Ken Kingery, Duke Univ. | News | Comments

Using little more than a few perforated sheets of plastic and a staggering amount of number crunching, Duke Univ. engineers have demonstrated the world’s first 3-D acoustic cloak. The new device reroutes sound waves to create the impression that both the cloak and anything beneath it are not there.

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Programmable material: Sheet metal that never rattles

March 5, 2014 4:52 pm | News | Comments

Researchers from Empa and ETH Zurich have succeeded in producing a prototype of a vibration-damping material that could change the world of mechanics. The material of the future is not only able to damp vibrations completely; it can also specifically conduct certain frequencies further.

Researchers develop ultrathin perfect ultraviolet light absorber

February 27, 2014 12:00 pm | News | Comments

Ultraviolet light (UV) has not only harmful effects on molecules and biological tissue like human skin but it also can impair the performance of organic solar cells upon long-term exposure. Researchers in Germany have now developed a so-called plasmonic metamaterial which is compatible with solar technology and completely absorbs UV light despite being only 20 nm thin.

Scientists twist sound with metamaterials

February 25, 2014 5:14 pm | News | Comments

A Chinese-U.S. research team is exploring the use of metamaterials to create devices that manipulate sound in versatile and unprecedented ways. In a recently published paper, the team reports a simple design for a device, called an acoustic field rotator, which can twist wave fronts inside it so that they appear to be propagating from another direction.

Nanopillars could improve conversion of heat to electricity

February 21, 2014 7:36 am | News | Comments

Univ. of Colorado Boulder scientists have found a creative way to radically improve thermoelectric materials, a finding that could one day lead to the development of improved solar panels and more energy-efficient cooling equipment. The technique, building an array of tiny pillars on top of a sheet of thermoelectric material, represents an entirely new way of attacking a century-old problem.

Metamaterial could speed up underwater communications by orders of magnitude

January 24, 2014 11:46 am | News | Comments

Researchers in California have made progress in a project to develop fast-blinking light-emitting diode systems for underwater optical communications. They have shown that an artificial metamaterial can improve the “blink speed” of a fluorescent light-emitting dye molecule 76 times faster than normal while increasing brightness 80-fold.

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Highly efficient broadband terahertz radiation from metamaterials

January 20, 2014 1:52 pm | News | Comments

Scientists at Ames Laboratory have demonstrated broadband terahertz (THz) wave generation using metamaterials. The discovery may help develop noninvasive imaging and sensing, and make possible THz-speed information communication, processing and storage.

Superlens extends range of wireless power transfer

January 13, 2014 7:47 am | News | Comments

Inventor Nikola Tesla imagined the technology to transmit energy through thin air almost a century ago, but experimental attempts at the feat have so far resulted in cumbersome devices that only work over very small distances. But now, Duke Univ. researchers have demonstrated the feasibility of wireless power transfer using low-frequency magnetic fields over distances much larger than the size of the transmitter and receiver.

Research lays out theory for metamaterial that acts as an analog computer

January 10, 2014 8:39 am | News | Comments

The field of metamaterials has produced structures with unprecedented abilities, including flat lenses, invisibility cloaks and even optical metatronic devices that can manipulate light in the way electronic circuitry manipulates the flow of electrons.  Now, the birthplace of the digital computer, ENIAC, is using this technology in the rebirth of analog computing.

Researchers design first battery-powered invisibility cloaking device

December 18, 2013 1:37 pm | News | Comments

Researchers at The Univ. of Texas at Austin have proposed the first design of a cloaking device that uses an external source of energy to significantly broaden its bandwidth of operation. The team has proposed a design for an active cloak that draws energy from a battery, allowing objects to become undetectable to radio sensors over a greater range of frequencies.

Researchers create a nonlinear light-generating zero-index metamaterial

December 5, 2013 2:57 pm | News | Comments

The Information Age will get a major upgrade with the arrival of quantum processors faster and more powerful than today’s supercomputers. For the benefits of this new Information Age 2.0 to be fully realized, however, quantum computers will need fast and efficient multi-directional light sources. While quantum technologies remain grist for science fiction, a team of researchers has taken an important step towards efficient light generation.

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New hologram technology created with tiny nanoantennas

November 15, 2013 7:55 am | News | Comments

Researchers have created tiny holograms using a metasurface capable of the ultra-efficient control of light, representing a potential new technology for advanced sensors, high-resolution displays and information processing. The metasurface, thousands of V-shaped nanoantennas formed into an ultra-thin gold foil, could make possible optical switches small enough to be integrated into computer chips for information processing.

Phonons may block sound, channel heat with unprecedented precision

November 13, 2013 1:48 pm | News | Comments

The phonon, like the photon or electron, is a physical particle that travels like waves, representing mechanical vibration. Phonons transmit everyday sound and heat. Recent progress in phononics by a research scientist at Georgia Institute of Technology has led to the development of new ideas and devices that are using phononic properties to control sound and heat, even to the point of freeing bustling city blocks from the noise of traffic.

Thin, active invisibility cloak demonstrated for first time

November 13, 2013 7:44 am | News | Comments

Invisibility cloaking is no longer the stuff of science fiction: Two researchers at the Univ. of Toronto have demonstrated an effective invisibility cloak that is thin, scalable and adaptive to different objects. The team designed and tested a new approach to cloaking—by surrounding an object with small antennas that collectively radiate an electromagnetic field. The radiated field cancels out any waves scattering off the cloaked object.

Wireless device converts 'lost' energy into electric power

November 8, 2013 7:00 am | News | Comments

Using inexpensive materials configured and tuned to capture microwave signals, researchers at Duke University's Pratt School of Engineering have designed a power-harvesting device with efficiency similar to that of modern solar panels. The device wirelessly converts the microwave signal to direct current voltage capable of recharging a cell phone battery or other small electronic device.

Plasmonic crystal alters to match light-frequency source

October 30, 2013 8:25 am | News | Comments

Gems are known for the beauty of the light that passes through them. But it is the fixed atomic arrangements of these crystals that determine the light frequencies permitted passage. Now a Sandia National Laboratories-led team has created a plasmonic, or plasma-containing, crystal that is tunable. The effect is achieved by adjusting a voltage applied to the plasma.

How a metamaterial might improve a depression treatment

October 30, 2013 7:40 am | News | Comments

A brain stimulation technique that is used to treat tough cases of depression could be considerably improved with a new headpiece designed by Univ. of Michigan engineers. Computer simulations showed that the headpiece—a square array of 64 circular metallic coils—could one day help researchers and doctors hit finer targets in the brain that are twice as deep as they can reach today, and without causing pain.

Metamaterial lens has ten times more power

October 29, 2013 8:48 am | News | Comments

A lens with ten times the resolution of any current lens, making it a powerful new tool for the biological sciences, has been developed by researchers at the Univ. of Sydney. The lens was created using fiber-optic manufacturing technology, and is a metamaterial, or a material with completely new properties not found in nature.

Physicists aim to make transition to quantum world visible

October 25, 2013 8:45 am | News | Comments

Scientists in Germany have developed a mathematical model for a type of microscopic test lab that could provide new and deeper insight into the world of quantum particles. The new test system will enable the simultaneous study of one hundred light quanta, or photons, and their quantum entanglements. This is a far greater number than was previously possible.

Alternative materials could bring “plasmonic” technologies

August 6, 2013 7:50 am | News | Comments

Researchers are working on a range of options to overcome a fundamental obstacle in commercializing plasmonic metamaterials that could bring advanced optical technologies for more powerful computers, new cancer treatments and other innovations. The materials could make it possible to harness clouds of electrons called "surface plasmons" to manipulate and control light.

Wonders of nature inspire exotic man-made materials

August 1, 2013 8:34 am | News | Comments

In Physics World, a group of physicists describe how unique structures in the natural world are inspiring scientists to develop new types of materials with unprecedented properties. From adhesive tape inspired by the toes of geckos to a potential flaw-resistant coating of airplanes inspired by mother of pearl, the attractiveness centers on one concept—hierarchical design.

Metamaterial flexible sheets could transform optics

June 6, 2013 8:38 am | News | Comments

New ultrathin, planar, lightweight and broadband polarimetric photonic devices and optics could result from recent research by a team of Los Alamos National Laboratory scientists. The advances would boost security screening systems, infrared thermal cameras, energy harvesting and radar systems.

Organic chemistry leads light waves astray

June 4, 2013 1:37 pm | News | Comments

Metamaterials have already been fabricated that have a negative refractive index for electromagnetic waves, but controlling shorter light waves has proved far more difficult. Researchers have now synthesized metamaterials based on organic molecules as building blocks. This approach has several advantages over the metallic nanostructures previously used.

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