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Engineers Unveil Plasmonic Laser Antenna

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CAMBRIDGE, Mass., Sept. 6, 2006 -- Engineers and applied scientists have demonstrated a new photonic device with a wide range of potential commercial applications, including higher density DVDs, more powerful microscopes and novel tools for biology and engineering. Termed a plasmonic laser antenna, the design consists of a metallic nanostructure, known as an optical antenna, integrated onto the facet of a commercial semiconductor laser.

Spearheaded by two Harvard University research groups led by Ken Crozier, assistant professor of electrical engineering; Federico Capasso, the Robert L. Wallace Professor of Applied Physics; and Vinton Hayes, senior research fellow in electrical engineering; the findings were published in the Aug. 28 edition of Applied Physics Letters. The researchers have also filed for US patents covering this new class of photonic devices.

“The optical antenna collects light from the laser and concentrates it to an intense spot measuring tens of nanometers, or about one-thousandth the width of a single human hair,” said Crozier. “The device could be integrated into optical data storage platforms and used to write bits far smaller than what’s now possible with conventional methods. This could lead to vastly increased storage capacities in the terabyte range (a thousand gigabytes).”

Writable CDs and DVDs are a popular means for storing and backing up data, but the storage density is limited by the resolution limit of conventional optics. The optical antenna offers a substantial improvement in spatial resolution, which in turn leads to increased storage density. While optical antennas are similar to conventional antennas used for wireless communications (Wi-Fi), they are much smaller in scale—only a few hundred nanometers across. Moreover, optical antennas operate in the visible and infrared portion of the electromagnetic spectrum; these wavelengths are far smaller than the wavelengths used in Wi-Fi.

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"This invention extends the reach of semiconductor lasers—which have the greatest commercial penetration of all lasers—into the nanoscale and down to dimensions much smaller than a wavelength,” said Capasso. “This means the plasmonic laser antenna is potentially useful in a broad range of scientific and engineering applications, including near-field optical microscopes, spatially resolved chemical imaging and spectroscopy.”

The new device integrates an optical antenna and a laser into a single unit, consists of fewer components, has a smaller footprint and benefits from an improved signal-to-noise ratio relative to previous approaches. The inventors expect, with further development, its wide adoption and use in academic and research settings as well as in the high-tech commercial sector.

“Eventually, we envision the laser integrated into new probes for biology like optical tweezers—which can manipulate objects as small as a single atom,” said Crozier. “It could also be used for integrated-circuit fabrication or to test impurities during the fabrication process itself. One day, consumers might be able to back up three terabytes data on one disk.”

Capasso and Crozier’s co-authors are graduate students Ertugrul Cubukcu and Eric A. Kort. All are members of Harvard’s Division of Engineering and Applied Sciences. The research was supported by the Air Force Office of Scientific Research and the National Science Foundation. The authors also acknowledge the support of two Harvard-based centers, the Nanoscale Science and Engineering Center and the Center for Nanoscale Systems, a member of the National Nanotechnology Infrastructure Network.

For more information, visit: www.deas.harvard.edu

Published: September 2006
Glossary
optical
Pertaining to optics and the phenomena of light.
antennaBasic ScienceCapassoCommunicationsCrozierHarvardMicroscopynano antennananoantennananostructureNews & Featuresopticaloptical antennaphotonic deviceplasmonicsemiconductor lasersLasers

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