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A recent investigation by researchers from the University of Michigan (UMich) illuminates a light bulb that resembles a typical filament bulb yet generates twisted light, referred to by physicists as elliptically polarized light.
Filament bulbs along with other frequently utilized light sources emit linearly polarized (when light waves fluctuate in one plane) or unpolarized light (when light waves fluctuate in every direction simultaneously).
Nevertheless, for the development of vision systems for robots or self-driving vehicles, twisted light technology is a crucial necessity. This capability will permit them to differentiate colors, textures, surfaces, and orientations.
“These discoveries could, for instance, be vital for an autonomous vehicle to distinguish between a deer and a human, which emit light with comparable wavelengths but different helicity, as deer fur has a distinct curl compared to our fabric,” stated Nicholas Kotov, a co-author of the study and an authority in chemical engineering at UMich, explained.
The principles of generating elliptically polarized light
The researchers indicate that twisted light can be generated through the same principles as the century-old Edison bulb (filament light bulb) technology.
“We began to realize that we essentially possess a very ancient method to produce these photons—not depending on photon and electron excitations, but akin to the bulb developed by Edison,” remarked Jun Lu, the lead author of the study and a postdoctoral research fellow at UMich.
The core laws of physics suggest that all entities (including you and your pet) with a body temperature exceeding absolute zero (i.e. >-273.15°C or -459.67°F) emit photons.
Nonetheless, certain objects absorb an equal number of photons as they emit at a specific temperature, and this occurrence is known as blackbody radiation.
Throughout their investigation, the UMich team twisted tungsten wires and carbon nanotubes to develop a distinct light emitter. A crucial detail here is that the length of each twist corresponds to the wavelength of the emitted light.
This led to the formation of a twisted light akin to what a twisted blackbody would generate. What’s even more intriguing is that a blackbody typically emits unpolarized light, yet in this instance, the twisted emitter produces elliptically polarized light.
“The advancements in the physics of blackbody radiation through chiral nanostructures are integral to this study. Such emitters are omnipresent in our surroundings,” Kotov remarked.
Not just twisted but also brilliant
Researchers have endeavored to produce twisted light in the past as well, but this is the first instance where such a bright twisted light has been realized. Lu and his associates assert that their device emits elliptically polarized light that is 100 times more brilliant than previously discovered methods.
Additionally, “While brightness is the primary benefit of this approach for producing twisted light, which is up to 100 times brighter than other methods, the light encompasses a broad spectrum of both wavelengths and twists,” the UMich team noted.
They are optimistic that in the future, their twisted light technology could enable robots and self-driving vehicles to emulate the vision of mantis shrimp, a sea creature recognized for its capacity to perceive a vast range of UV and infrared light, along with its proficiency in sensing twists and patterns.
The research is published in the journal Science.
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