A laser beam can cast a shadow, scientists have found

The imperfection of a 3D simulator of nonlinear optical phenomena in materials, which in the program created a shadow from a digital image of a laser beam, made scientists think about an experiment that would allow a real laser beam to cast a shadow. Under normal conditions, this never happens – luminous objects and phenomena do not create shadows. But a unique experiment did the impossible, and for the first time a laser beam acquired its own shadow.

Shadow on the wall of a ruby ​​from a green laser. Image source: Raphael A. Abrahao

A scientific paper on the discovery has been accepted for publication in the peer-reviewed journal Optica. The experiment was carried out by scientists from the US Brookhaven National Laboratory (BNL). The experiment became part of a broader project to study the nonlinear optical properties of materials.

«A laser beam casting a shadow was previously considered impossible because light typically passes through another light source without interacting, said research team leader Raphael A. Abrahao. “Our demonstration of a highly counterintuitive optical effect encourages us to reconsider our understanding of shadow.”

Laser shadow on screen

To set up the experiment, the scientists shined a green laser beam on one side of a ruby ​​cube (a material popular for laser experiments). An intense blue laser light was directed to the other side of the cube perpendicular to the green beam. After this, a shadow from the green laser appeared on the opposite side of the ruby ​​cube illuminated by the blue laser. It was a real shadow: it slid across the screen following the movement of the green ray, repeating all the curves of the screen.

Experimental setup diagram

As the scientists explained, the green laser changed the local properties of ruby, increasing the absorption of the blue laser in such areas (it excited electrons in the ruby ​​atoms that were “getting in the way” of the blue laser with a shorter wavelength).

«Our understanding of shadows has evolved hand in hand with our understanding of light and optics,” explains Abrajao. “This new discovery could be useful in a variety of applications, such as optical switching, devices in which light controls the presence of another light source, or technologies that require precise control of light transmission associated with high-power lasers.”

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