Flat elements developed by Harvard could make camera lenses smaller, lighter and better
A team at Harvard School of Engineering and Applied Sciences has developed a method for making flat lenses that could dramatically reduce the size and weight of camera lenses in the future. The method employs tiny silicon antennas positioned on flat glass components to redirect light when it reaches the surface of the lens instead of relying on refraction and the thickness of glass to bend light in a particular direction. The silicon antennas on a single flat lens element can be arranged to direct the three main wavelengths to focus at exactly the same point – a job that usually requires at least three elements in a conventional, glass lens.
In normal lenses white light divides into its different constituent wavelengths as it passes through the glass, with the effect that colors separate into a rainbow of colors. It takes a pair of additional lens elements to correct that color breakup, in an arrangement that's called an apochromat. The Harvard team claims that its invention means these triplets will no longer be needed, and that a thin disc using these antennas will be able to achieve the same task as three large regular elements.
The team made a break-through in 2012 when it demonstrated the ability to focus a single color wavelength using metal nanoantennas, but has since switched to silicon and developed a new way of arranging the antennas that allows it to deal with red, green and blue wavelengths at the same time.
For more information, visit the Harvard School of Engineering and Applied Sciences website.
Perfect colors, captured with one ultra-thin lens
No need for color correction—Harvard physicists’ flat optics, using nanotechnology, gets it right the first time
Cambridge, Mass. – Most lenses are, by definition, curved. After all, they are named for their resemblance to lentils, and a glass lens made flat is just a window with no special powers.
But a new type of lens created at the Harvard School of Engineering and Applied Sciences (SEAS) turns conventional optics on its head.
A major leap forward from a prototype device demonstrated in 2012, it is an ultra-thin, completely flat optical component made of a glass substrate and tiny, light-concentrating silicon antennas. Light shining on it bends instantaneously, rather than gradually, while passing through. The bending effects can be designed in advance, by an algorithm, and fine-tuned to fit almost any purpose.
With this new invention described today in Science, the Harvard research team has overcome an inherent drawback of a wafer-thin lens: light at different wavelengths (i.e., colors) responds to the surface very differently. Until now, this phenomenon has prevented planar optics from being used with broadband light. Now, instead of treating all wavelengths equally, the researchers have devised a flat lens with antennas that compensate for the wavelength differences and produce a consistent effect—for example, deflecting three beams of different colors by the same angle, or focusing those colors on a single spot.
“What this now means is that complicated effects like color correction, which in a conventional optical system would require light to pass through several thick lenses in sequence, can be achieved in one extremely thin, miniaturized device,” said principal investigator Federico Capasso, the Robert L. Wallace Professor of Applied Physics and Vinton Hayes Senior Research Fellow in Electrical Engineering at Harvard SEAS.
Bernard Kress, Principal Optical Architect at Google [X], who was not involved in the research, hailed the advance:
“Google [X], and especially the Google Glass group, is relying heavily on state-of-the-art optical technologies to develop products that have higher functionalities, are easier to mass produce, have a smaller footprint, and are lighter, without compromising efficiency,” he said. “Last year, we challenged Professor Capasso’s group to work towards a goal which was until now unreachable by flat optics. While there are many ways to design achromatic optics, there was until now no solution to implement a dispersionless flat optical element which at the same time had uniform efficiency and the same diffraction angle for three separate wavelengths. We are very happy that Professor Capasso did accept the challenge, and also were very surprised to learn that his group actually solved that challenge within one year.”
The team of researchers, led by Capasso and postdoctoral fellow Francesco Aieta, has developed a design that rivals the bulky equipment currently used in photography, astronomy, and microscopy. It could also enable the creation of new miniature optical communications devices and find application in compact cameras and imaging devices.
The new lens, dubbed an “achromatic metasurface,” dramatically improves on the flat lens Capasso’s research group demonstrated in 2012. That prototype, the first of its kind, corrected for some of the aberrations of conventional lenses but suffered from the limitation of only focusing light of a single wavelength, and its focusing efficiency was small. The new model uses a dielectric material rather than a metal for the nanoantennas, a change which greatly improves its efficiency and, combined with a new design approach, enables operation over a broad range of wavelengths.
Most significantly, the new design enables the creation of two different flat optical devices. The first, instead of sending different colors in different directions like a conventional grating, deflects three wavelengths of light by exactly the same angle. In the second device, the three wavelengths can all be focused at the same point. A flat lens can thus create a color image—focusing for example red, green, and blue, the primary colors used in most digital displays. The team’s computational simulations also suggest that a similar architecture can be used to create a lens that collimates many different wavelengths, not just three.
“This is a major step forward in establishing a planar optical technology with a small footprint which overcomes the limitations of standard flat optics, known as diffractive optics,” said Capasso. “It also opens the door to new functionalities because of the enormous design space made possible by metasurfaces.”
“This is an elegant and groundbreaking accomplishment,” said Nader Engheta, H. Nedwill Ramsey Professor at the University of Pennsylvania, who was not involved in the research. “The planar optical structures designed and demonstrated by Professor Capasso's group have much less volume than their conventional bulky counterparts and at the same time their chromatic aberration has been suppressed. This is an important development that will undoubtedly lead to other exciting innovations in the field of flat photonics.”
Harvard's Office of Technology Development has filed for a provisional patent on the new optical technology and is actively pursuing commercial opportunities.
“Our previous work on the metallic flat lens produced a great excitement in regard to the possibility of achieving high numerical aperture and spherical aberration-free focusing with a very compact design. By demonstrating achromatic lenses we have now made a major step forward towards widespread future application of flat optics that will certainly attract the interest of the industry,” said lead author Francesco Aieta, now employed by Hewlett Packard, who conducted the research at Harvard SEAS.
Additional coauthors of the Science paper include Mikhail A. Kats and Patrice Genevet, both former members of the Capasso laboratory. Kats, who earned his Ph.D. at Harvard SEAS in 2013, is now an assistant professor at the University of Wisconsin, Madison. Genevet, formerly a postdoctoral research associate at SEAS, is now at the Singapore Institute of Manufacturing Technology.
This research was supported in part by a MURI grant from the Air Force Office of Scientific Research (FA9550-12-1-0389), with additional support from Draper Laboratory (SC001-0000000731), and the National Science Foundation (NSF, ECCS-1347251). Fabrication was performed at the Harvard Center for Nanoscale Systems, which is a member of the NSF-funded National Nanotechnology Infrastructure Network.
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