A new research field called transformation optics may usher in a host of radical advances including a cloak of invisibility and ultra-powerful microscopes and computers by harnessing nanotechnology and “metamaterials.”

The field, which applies mathematical principles similar to those in Einstein’s theory of general relativity, will be described in an article to be published Friday (Oct. 17) in the journal Science. The article will appear in the magazine’s Perspectives section and was written by Vladimir Shalaev, Purdue’s Robert and Anne Burnett Professor of Electrical and Computer Engineering.

The list of possible breakthroughs includes a cloak of invisibility; computers and consumer electronics that use light instead of electronic signals to process information; a “planar hyperlens” that could make optical microscopes 10 times more powerful and able to see objects as small as DNA; advanced sensors; and more efficient solar collectors.

“Transformation optics is a new way of manipulating and controlling light at all distances, from the macro- to the nanoscale, and it represents a new paradigm for the science of light,” Shalaev said. “Although there were early works that helped to develop the basis for transformation optics, the field was only recently established thanks in part to papers by Sir John Pendry at the Imperial College, London, and Ulf Leonhardt at the University of St. Andrews in Scotland and their co-workers.”

Current optical technologies are limited because, for the efficient control of light, components cannot be smaller than the size of the wavelengths of light. Transformation optics sidesteps this limitation using a new class of materials, or metamaterials, which are able to guide and control light on all scales, including the scale of nanometers, or billionths of a meter.

“The whole idea behind metamaterials is to create materials designed and engineered out of artificial atoms, meta-atoms, which are smaller than the wavelengths of light itself,” Shalaev said. “One of the most exciting applications is an electromagnetic cloak that could bend light around itself, similar to the flow of water around a stone, making invisible both the cloak and an object hidden inside.”

Shalaev and researchers from his group — doctoral students Wenshan Cai and Uday K. Chettiar and principal research scientist Alexander V. Kildishev — in 2007 took a step toward creating an optical cloaking device in the visible range of the spectrum. Their theoretical design uses an array of tiny needles radiating outward from a central spoke, resembling a round hairbrush, and would bend light around the object being cloaked.

The mathematical equations for transformation optics are similar to the mathematics behind Einstein’s theory of general relativity, which describes how gravity warps space and time, Shalaev said.

“Whereas relativity demonstrates the curved nature of space and time, we are able to curve space for light, and we can design and engineer tiny devices to do this,” he said. “In addition to curving light around an object to render it invisible, you could do just the opposite — concentrate light in an area, which might be used for collecting sunlight in solar energy applications. So, general relativity may find practical use in a number of novel optical devices based on transformation optics.”

The metamaterials also may enable engineers to overcome obstacles now confronting the semiconductor industry: It is becoming increasingly difficult to make faster computer chips because the technology is reaching its limits. But computers using light instead of electronic signals to process information would be thousands of times faster than conventional computers. Such “photonic” computers would contain special transistor-size optical elements made from metamaterials.

Transformation optics also could enable engineers to design and build a “planar magnifying hyperlens” that would drastically improve the power and resolution of light microscopes.

“The hyperlens is probably the most exciting and promising metamaterial application to date,” Shalaev said. “The first hyperlens, proposed independently by Evgenii Narimanov at Princeton and Nader Engheta at the University of Pennsylvania and their co-workers, was cylindrical in shape. Transformation optics, however, enables a hyperlens in a planar form, which is important because you could just simply add this flat hyperlens to conventional microscopes and see things 10 times smaller than now possible. You could focus down to the nanoscale, much smaller than the wavelength of light, to actually see molecules like DNA, viruses and other objects that are now simply too small to see.”

The hyperlens theoretically would compensate for the loss of a portion of the light transmitting fine details of an image as it passes through a lens. Lenses and imaging systems could be improved if this lost light, which scientists call “evanescent light,” could be restored. Such a hyperlens would both magnify an image and convert this evanescent light so that it does not weaken with distance but continues to propagate.

Meta in Greek means beyond, so the term metamaterial means to create something that doesn’t exist in nature.

Unlike natural materials, metamaterials are able to reduce the “index of refraction” to less than one or less than zero. Refraction occurs as electromagnetic waves, including light, bend when passing from one material into another. It causes the bent-stick-in-water effect, which occurs when a stick placed in a glass of water appears bent when viewed from the outside. Each material has its own refraction index, which describes how much light will bend in that particular material and defines how much the speed of light slows down while passing through a material.

Natural materials typically have refractive indices greater than one. Metamaterials, however, can make the index of refraction vary from zero to one, which possibly will enable cloaking as well as other advances, Shalaev said.

He estimated that researchers may be building prototypes using transformation optics, such as the first planar hyperlenses, within five years.

[Emil Venere @ Purdue University]

• Lincoln : Town Car 2007 Lincoln Town Car 120″ Limousine by Krystal (LNS)
• 77mm UV Lens Filter +Petal camera lens hood for camera
• X-Rite 810 Densitometer
• Hoya SUPER HMC UV Filter 4 Digital Camera Lens 62 62mm
• COACH OPTIC WRISTLET NWT KHAKI/BROWN
• Hoya SUPER HMC UV Filter 4 Digital Camera Lens 82 82mm
• HP 9100MX 9.1GB Magneto-Optic Drive C1114M
• KODAK Z1485 14MP DIGITAL CAMERA ~4SD + 7 BONUS ~PINK!~
• FILTER KIT FOR SONY Handycam Camcorder 37MM LENS
• FISH-EYE wide-angle video LENS 0.36X for SONY DCR-HC90
• FISH-EYE wide-angle video LENS .36X for SONY DCR-DVD403
• FISH-EYE wide-angle video LENS 0.36X for SONY DCR-SR100
• 10.0MP~KODAK Z1012 60X ZOOM DIGITAL CAMERA +4SD~6BONUS!
• 3.5 - 90x STEREO BINOCULAR DOUBLE ARM BOOM MICROSCOPE
• NEW Onyx and MOP Mosaic Cufflinks Intricate Cuff Links
• New Choppers Bikers Mens Sunglasses - charcoal dark C31
• Locs Mens Cholo Biker Sunglasses - Black LC11
• NEW Hoya SUPER HMC Multi Coated UV Haze Filter 67 67mm
• WIDE LENS+FLASH+TELE+FILTER KIT For Canon EOS XTi 400D
• Forten Competition Nylon 16G REEL (660ft.)
• High Fashion Oversized Sunglasses - Black/S. Blk #DG80E
• NEW Hoya SUPER HMC Multi Coated UV Haze Filter 82 82mm
• 05 06 07 HYUNDAI TUCSON HALO LED PROJECTOR HEADLIGHTS
• Lincoln : Town Car 2007 Lincoln Town Car Limousine 72″ Krystal Koach
• Black Wide Angle Lens Fisheye & Macro Lens for Canon
• 94-99 SILVERADO TAHOE TWIN HALO PROJECTOR HEADLIGHTS
• 02 03 04 Nissa Altima CCFL HALO RIM BLACK Headlights .
• 10x HD² Macro Lens for Canon PowerShot Pro1 Pro 1
• HD² 10x Macro Lens for Canon EOS 50D 40D 30D 20D 5D
• Pro HD² 10x Macro Lens for Canon PowerShot S5 S3 S2 IS
• 10x HD Professional Macro Lens for Olympus C-8080 C8080
• Opteka Pro HD² 10x Macro Video Lens for Canon GL2 GL1
• 10x HD Professional Macro Lens for Olympus C-8080 C8080
• 10x 58mm Replacement Macro Lens for Canon 500D 250D
• 10x HD² Macro Lens for Canon PowerShot A720 A710 A700
• 10x HD Macro Lens for Nikon Coolpix 8800 Digital Camera
• 10x HD² Macro Lens for Sony PD170 PD150 VX2100 VX2000
• Pro HD² 10x Macro Lens for Canon EOS Rebel XSi XTi XS
• 10x HD² Pro Macro Lens for Sony H10 H5 H3 H2 H1 F828
• 10x 58mm Macro Lens for Canon EOS Rebel T2 Ti K2 GII 7n
• 88-93 GMC SUBURBAN YUKON HEAD LIGHTS+CORNER+BUMPER BLK
• KODAK Z712 IS KIT 7.1MP EASYSHARE ZOOM DIGITAL CAMERA
• NCSTAR MARK III 6-24X50 ILLUMINATED RANGEFINDER SCOPE
• MERCEDES 6 CD CHANGER PLAYER C280 C32 C230 C320 C240
• MERCEDES 6 CD CHANGER PLAYER C280 C32 C230 C320 C240
• NEW SPY Optic Bianca Vintage Tortoise Womens Sunglasses
• LED Light Black Aluminum Flashlight Handy Torch White
• 20X-40X-80X STEREO MICROSCOPE W/ DIGITAL CAMERA
• Lincoln : Town Car 2006 Lincoln 120″ Limousine by Tiffany Coachworks
• BRITANNICA GREAT BOOKS NEWTON HUYGENS VOL 34 1952
• 2006-2008 TOYOTA YARIS BLACK LED PROJECTOR HEADLIGHTS
• 2009 Womens Fashion Sunglasses - Blk.Brn D122
• 8″ F/4 Newtonian Mirror(Astrographic?) 1/8th wave,Excel
• WIDE ANGLE TELE Lens Filter Kit For CANON EOS 350D 400D
• 99-00 HONDA CIVIC HALO PROJECTOR HEADLIGHTS 1999-2000 .
• Eotech 552 Holographic Tactical Weapons Sight 552.XR308
• Black Wide Angle Lens Fisheye & Macro Lens for Nikon
• VINTAGE Serengeti Drivers 6245R Navy & Gold Sunglasses
• New Keyboard Dell Inspiron 6000 9200 9300 D510 H5639
• NEW! Slim 10 MP DIGITAL CAMERA CAMCORDER + BONUS 2GB SD
• 20×50 BINOCULARS for NASCAR RACING HUNTING BIRDWATCHING
• Sony DSC-W70 CyberShot Digital Camera 7.2-MP 2.5″ LCD
• Nokia 5800 XpressMusic Unlocked Cell Phone with U.S. 3G
• NEW MERCEDES BENZ CD CHANGER PLAYER ML MODELS 98 99 00
• Bushnell Sentry 18-36×50mm Spotting Scope,Tripod,& Case
• HEAVY-DUTY 60 LED MICROSCOPE RING LIGHT w/ METAL BOX
• Nikon Coolpix S60 10MP Crimson Red Digital Camera USA
• 8GB SecureDigital SD Card for Canon PowerShot SX110 IS
• Case, plastic, pistol or accessories
• Silver Wine Opener Cufflinks Corkscrew Cuff Links Gift
• NEW 20x - 40x Stereo Binocular Microscope w Lights NR
• NEW Cell (Platinum Series)
• 2005 2006 2007 2008 TACOMA CCFL HALO HEADLIGHTS BLACK
• 08-09 FORD F250 F350 F450 LED PROJECTOR HEADLIGHTS BLK
• 2 x New 6.5″ Toslink Fiber Optical Digital Audio Cable
• 98-02 CHEVY CAMARO PROJECTOR HEADLIGHTS+BUMPER BLACK 6P
• NEW SPY Optic Bianca White Merlot Fade Women Sunglasses
• 5.0M MICROSCOPE COLOR STILL & LIVE VIDEO DIGITAL CAMERA
• Oakley Square Wire Brushed Chrome VR28 Black Polarized
• LEICA 28MM F/2.8 ASPH. ELMARIT LENS BLACK W/ 6-BIT
• 0.36X WIDE LENS FISHEYE FIT JVC GZ-MG505
• 0.36X WIDE LENS FISHEYE FIT PANSONIC SDR-S100 VDR-D250
• FISH-EYE wide-angle video LENS .36X for SONY DCR-DVD505
• ULTIMATE 3.25X-90X ZOOM MICROSCOPE + 3M USB2 CAMERA
• 05 06 07 08 TOYOTA TACOMA HALO PROJECTOR HEADLIGHTS BLK
• Burleigh Fabry-Perot Etalon Kinematic Optical Mount PZT
• JEOL VACUUM SYSTEM AND BEAM STABILIZER
• Wild Sexy Leopard Print Womens Sunglasses - Brown D117
• NIB COACH NIKOLE GOLD OPTIC FUR SNOW BOOTS 7M
• NEW UNLOCKED LG KE970 SHINE SILVER GREY GSM PHONE 45
• Hoya HMC 52mm Close-up Macro Lens Filter Set +1+2+4 52
• Super Fish Eye Wide Lens For Olympus Evolt E-500 E-510
• NEW 10 MP High Resolution DIGITAL CAMERA VIDEO RECORDER
• 1 DOZ. Legend 11″ Optic Yellow Softballs, 44 Core, NEW
• Optic Yellow, 12″, 44 core/300 comp Softballs, 1 Dozen!
• 3.5-90X TRINOCULAR ARTICULATING MICROSCOPE +1.3M CAMERA
• SPY OPTICS TRON SUNGLASSES NEW MENS CHECKERS GREY LENS
• NEW Hoya 52mm Close-up Macro Filter Set +1+2+4 52 Kit
• SPY HIELO SUNGLASSES NEW MENS BLACK POLARIZED GREY LENS
• NEW HOYA 86mm STANDARD COATED UV Haze Filter Filtre 86