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Scientists develop camera to see polarised light, study atmospheric chemistry


Scientists at the Harvard John A. Paulson of Engineering and Applied Sciences (SEAS) have developed a compact and portable camera that can capture polarised light and help in the study of atmospheric chemistry, and detect camouflaged objects. This camera works on the principle of 'polarisation'- the direction in which light vibrates which is invisible to human eyes. It provides a great deal of information about the objects with which light interacts.

Paul Chevalier, co-author of the study said, polarisation is a feature of light that is changed upon reflection off a surface. Based on that change, polarisation can help us in the 3D reconstruction of an object, to estimate its depth, texture, and shape, and to distinguish man-made objects from natural ones, even if they're the same shape and color.

The details of this newly developed miniature camera, about the size of a thumb, were published in the journal Science.

These cameras could possibly find a place in the vision systems of autonomous vehicles, onboard planes, or satellites to analyze atmospheric chemistry, 3D reconstruction of objects among others. Cameras that see polarised light are currently used to detect material stress, enhance contrast for object detection, and analyze surface quality for dents or scratches.

Federico Capasso, the Robert L. Wallace Professor of Applied Physics, and Vinton Hayes, senior author of the paper said, this research is game-changing for imaging. This camera is a new eye on reality, allowing us to reveal how light is reflected and transmitted by the world around us. 

Noah Rubin, the first author of the paper said, if we want to measure the light's full polarisation state, we need to take several pictures along different polarisation directions. But this approach does not measure the full polarization state and requires a non-standard imaging sensor. In this work, we were able to take all of the optics needed and integrate them in a single, simple device with a metasurface.

The device is about two centimeters in length and no more complicated than a camera on a smartphone. With an attached lens and protective case, the device is as small as a lunch box. During a test run, the camera was used to show defects in injection-molded plastic objects, took it outside to film the polarisation off car windshields, and even took selfies to demonstrate how a polarisation camera can visualize the 3D contours of a face.

Rubin said, this technology could be integrated into existing imaging systems, such as the one in your cell phone or car, enabling the widespread adoption of polarisation imaging and new applications previously unforeseen.

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