No, CERN hasn't started slamming protons into each other at the Large Hadron Collider early. And no, a top secret warp drive hasn't been test-driven in Earth orbit (not that we know of anyway). In reality, an electromagnetic black hole has been fabricated in the laboratory for the first time.
Before you start getting concerned that the planet will soon be swallowed up by a rampaging singularity, the black hole in question isn't the gravitational behemoth you might find after a supernova or in the center of the Milky Way. This particular table-top black hole mimics the curvature of space-time, creating a fabricated event horizon that swallows electromagnetic radiation at microwave wavelengths.
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The best thing is that this experiment isn't just for curiosity-sake, it has a practical application that could revolutionize future solar panel design, making the production of solar energy a lot more efficient than it is currently.
According to previous theoretical studies, mimicking the curvature of space-time around an analog black hole should be possible, guiding electromagnetic radiation around a cylindrical structure "consisting of a central core surrounded by a shell of concentric rings" (as explained by the New Scientist article). The theory is that a material of increasing permittivity (a characteristic of the medium electromagnetic radiation travels through, influencing the electrical component of the photons) could be used between the outer and inner surface of the cylinder. If the transition is smooth enough, and the permittivity eventually matches that of the cylinder core, the photons should be absorbed by the core, rather than reflected.