Own an iPhone? You probably have a notch at the top of your screen, just like your iPad, and just like your MacBook, if you own those products as well. But a new metasurfaces camera technology from a startup in Boston should be able to eliminate that notch as well asâperhaps more importantlyâbring truly secure Face ID to lower-end Android phones.
âiPhone has this face unlock feature, but it really hasnât propagated outside of the iPhone because that module is very expensive, very complicated, and takes up a lot of space,â Metalenz founder and CEO Rob Devlin told me recently on the TechFirst podcast. âAndroid phones have wanted biometric authentication. But havenât been able to essentially foot the bill because itâs too expensive.â
iPhones accomplish face unlock with a front-facing camera, a light, and an illuminator that projects about 30,000 invisible dots across your face. The combination of those components is needed in order to do high-security 3D verification that you are indeed you, and it actually is safe to unlock your phone. It works in low light thanks to the use of infrared, and is hard to beat, with better security than visible light cameras alone.
It also costs between $10-15, making it an expensive part of the phone to manufacture. Android phones have wanted to replicate this experience, says Devlin, but itâs been too expensive for some of the price points theyâve wanted to hit.
For instance, the Galaxy S20, released in 2020, uses simple 2D facial recognition. The problem with that, according to Android Authority, is âyou get a 2D model of your face that can be fooled by a photo.â Googleâs Pixel 4, released around the same time, uses a flood illuminator and dot projectorâlike iPhonesâto significantly enhance security. Even today, the Galaxy S24 has issues with face recognition for some users.
If thatâs the top end, how will low-end, cheaper Android phones compete? The answer is they often donât, which is why almost half of Android phones tested from manufacturers such as Nokia, Xiaomi, Oppo, Honor, and Motorola could be unlocked with just a photograph, a study found in 2023.
All models of iPhone passed the test, âthanks to Appleâs Face ID system, which uses sensors to create a 3D depth map of the user’s face.â
âSome of the more sophisticated ones where they started applying more AI and some machine learning, you canât trick them with a picture, but you can still trick them with a mask,â Devlin says.
But people are using these systems despite the problems because itâs more convenient.
Devlin says Metalenz has a solution: cheap but still high-fidelity and high-security facial recognition using the companyâs metasurfaces innovation, which enables it to print camera lenses like computer chips, 10,000 to a wafer. Metalenz calls it Polar ID because it captures lightâs polarization. Polarization is a complex process describing how light waves oscillate as they travel, but the key insight is that they reveal important details about the composition of the material created or reflect the light waves, which is how astronomers can tell us insights about the chemical composition of stars and planets trillions of kilometers away.
âWhenever light hits anyoneâs face, when it bounces off the shape of your face, the material that your face is made up of versus a perfect 3D mask of you will polarize the light differently,â Devlin says. âIf you pass this through traditional imaging systems, it throws away that information. But when we put a metasurface in there, we can actually parse, sort, and retain that polarization information. So it allows us to make a shape map of your face, but then it also allows us to say, this is human skin and not silicone.â
In other words, Metalenz has found a way to read polarization data with a tiny, flat chip that can be printed thousands at a time in silicon, enabling access to the infrastructure of the semiconductor industry, which can scale production to billions if not trillions.
Itâs something that costs about a third of Appleâs FaceID hardware, meaning that it could be cheap enough, finally, to bring to even lower-end Android phones. Plus, of course, work in an Apple device without requiring as large a notchâor even any notch at all, in future potential an under-screen version.
But the possibilities are significantly bigger than that.
Light polarization cameras in industrial labs can cost about a thousand dollars. (This one with a five megapixel sensor is almost $3,000.) Now the solution is available for around $5, and it enables medical applications in a standard hand-held smartphone.
âItâs a whole new information set that hasnât been there for users,â Devlin says. âThere are a known set of applications you can look at, say a growth on skin, and you can tell whether itâs cancerous based off of the polarization information. You can do things like air quality monitoring. So you can actually, with polarization, tell what the local air quality is.â
Smartphones are the Star Trek tricorders of today.
They already have sensors for visible light, sound, infrared light in many cases, radio waves in multiple frequencies, and potentially more. Now we have the potential to add to a smartphoneâs capability, or sensorium, with technology that can detect the composition of elementsâeven in trace proportionsâall around us.
Thatâs a significant new capability that, if all goes according to plan, could soon be on billions of devices around the planet.
Metalenz is partnering with ST Microelectronics, the $36 billion European supplier to the electronics industry including smartphone manufacturers. Devlin says the company is providing metasurfaces components for a module that ST Microelectronics has previously shipped for about 150 different smartphone models which have historically sold about two billion units.
Which means thereâs a lot of room for growth. Including possibly with the giant of the smartphone industry, Apple itself.