MIT Engineers Fabricate 'Metalens' That Shifts Focus Without Moving

Miniature zoom lenses for drones, cellphones, or night-vision goggles might become a reality.
Derya Ozdemir

Massachusetts Institute of Technology (MIT) engineers have manufactured a novel "metalens" that can shift focus at multiple depths without tilting or moving. Contrary to usual lenses, this one is not made of solid glass, but rather of a transparent "phase-changing" material.

As described in the newly published study in the journal Nature Communications, once the material is heated, it can rearrange its atomic structure and change the way it interacts with light. This enables the metalens to shift its focus without needing bulky mechanical components. 

The material used in rewritable CDs prompted the breakthrough

The phase-changing material was developed by tweaking a material generally used in rewritable CDs and DVDs, called GST. The mechanism that enables data stored in CDs to be written, deleted, and rewritten was utilized here.

GST's internal structure changes when heated, allowing it to change between transparent and opaque states. The MIT researchers etched this material's surface with "tiny and precisely patterned structures." What's special about these stuctures is that they work collectively as a "metasurface" to refract or reflect light in novel ways according to the material's property changes. 

This is the trick that enabled the researchers to get the metalens focus without moving. When the material was kept at room temperature, the metasurface was able to direct light to create a sharp image of an object at some distance away. After the material was heated with laser pulses, the metasurface redirected light to focus on a more far away object.

"Our result shows that our ultrathin tunable lens, without moving parts, can achieve aberration-free imaging of overlapping objects positioned at different depths, rivaling traditional, bulky optical systems," said Tian Gu, a research scientist in MIT’s Materials Research Laboratory, in an MIT press release.

The design currently images within the infrared band. Thanks to its compactness, it may be used to develop miniature zoom lenses for drones, cellphones, or night-vision goggles in the future.

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