AFMC Command News

Ghost-imaging could have satellite application

  • Published
  • By Maria Callier
  • Air Force Office of Scientific Research Public Affairs
ARLINGTON, Va. --  Investigators funded by the Air Force Office of Scientific Research are conducting research under the name of "ghost-imaging," where a visual image of an object is created by means of light that has never interacted with the object.

The new technology may eventually result in more versatile use of field sensors, and have space applications.

University of Maryland, Baltimore Campus, professor Yanhua Shih initiated ghost-imaging research in 1995 by using entangled photons. In the experiment, one photon passed through stenciled patterns in a mask to trigger a detector and another photon was captured by a second detector. Surprisingly, an image appeared of the pattern between the two detectors, which the physics community called ghost-imaging.

In an article entitled "Reflection of a Ghost" that appeared in April's Physical Review, fellow researcher Dr. Keith Deacon indicates that ghost-imaging appears promising for future application to satellite technology. Dr. Deacon said he believes ghost-imaging may enable a satellite to be equipped with a detector and that would be coupled with a second camera that would take images of the sun. That combination of technologies could generate ghost images of the Earth's surface, even if there are obstructing atmospheric conditions.

Dr. Shih and fellow researchers, Drs. Ron Meyers and Keith Deacon of the U.S. Army Research Laboratory, have created ghost images this year using thermal light. The three scientists combined the signals from two detectors, one that collected light from a toy soldier and another that took a digital picture of the light source.

Ghost-imaging is similar to taking a flash-lit photo of an object using a normal camera. The image forms from photons that come out of the flash, bounce off the object, and then are focused through the lens onto photo-reactive film or a charge-coupled array.

"But, in this case, the image is not formed from light that hits the object and bounces back," Dr. Shih explained. "The camera collects photons from the light sources that did not hit the object, but are paired through a quantum effect with others that did. An image of the toy begins to appear after approximately a thousand pairs of photons are recorded.

"My goal is to delve deeply into the physics of the ghost-imaging phenomenon, complete the theory of that technology and improve the technique toward practical, nonlocal sensing-imaging applications, especially for the Air Force," Dr. Shih said.