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A Special Diamond Is the Key to a Fully Open Source Quantum Sensor
Aug 9, 2025 2:40 PM Quantum sensors can be used in medical technologies, navigation systems, and more, but they're too expensive for most people. That's where the Uncut Gem open source project comes in. Photo-Illustration: Wired Staff/Quantum Village
Quantum computing is either a distant dream or an imminent reality depending on who you ask. And while much of this year's Quantum Village at the Defcon security conference in Las Vegas is focused on emerging research and threat analysis, village cofounders Victoria Kumaran and Mark Carney are also working to make a currently available quantum technology more accessible to hackers and anyone else.
In a main-stage Defcon talk on Saturday, the pair will present an open source and affordable quantum sensor that can serve a variety of uses, from medical technologies to GPS alternatives. And it's all powered by a special yet affordable diamond with particular atomic properties. The first generation design could be assembled for about $120 to $160 depending on suppliers and shipping times. The second version that Kumaran and Carney are presenting this weekend can be built for even less, and the pair says that they will release a third version this fall based on community testing and input that they hope will cost just $50 to build.
Quantum sensors detect extremely slight variations in magnetic and electrical fields, enabling ultra-precise measurements. Atomic clocks that keep nearly perfect time, for example, are quantum sensors that have been in use for decades. For researchers and enthusiasts interested in learning more about quantum sensing, though, the barrier to entry has been quite high. So the Quantum Village's relatively affordable, open source 'Uncut Gem' project creates a real opportunity for more people to build their own quantum sensors and explore the technology.
'You can do things you wouldn't have been able to do before, like using quantum sensors to start building portable MRI-style devices that can be used in all different countries,' Kumaran told WIRED ahead of their presentation. 'These are diamonds with defects, synthetic diamonds that are the cheapest off-cuts you can get. I think there's something a bit poetic that synthetic diamonds have this utility.'
Most of the components needed for the quantum sensor are simple off-the-shelf computing parts, but the diamond needs to be what's known as a 'nitrogen-vacancy diamond.' Its special molecular properties are thanks to the presence of nitrogen atoms that replace some carbon atoms in the diamond's atomic structure.
In addition to potential medical applications, quantum sensors can be used in alternative navigation technologies that track electromagnetic wave interference. Such tools could be used as local alternatives to GPS in the case of global system failures or targeted jamming. US Space Force is currently testing what a release called the 'highest-performing quantum inertial sensor ever tested in space.'
For the vast majority of people who don't have access to the world's highest performing quantum sensors, though, the Uncut Gem project represents an opportunity to democratize and expand quantum sensing technology. The project joins others in different fields of hacking that have been geared toward low-cost, accessible designs and components.
Independent researcher Davide Gessa has been testing the Uncut Gem schematics and code.
'I'm in the final phase of casting the diamond with the electronics—I hope to finish the device in about two weeks,' Gessa told WIRED. 'I'm following the instructions from the official project, but I made some customizations, too. My hope is to exploit this device to do some quantum computing experiments and also use it for random number generation. All my edits will be open source, so everyone can replicate and improve it.'
Uncut Gem prototype sensors have already been able to detect magnetic wave fluctuations in a chaotic conference hall as well as a heartbeat from a few feet away from a subject. Software is vital in quantum sensing, because even the most refined and high-quality hardware still picks up noise in the environment that needs to be reconciled and filtered to focus the sensor's output on the intended detection.
'The reason we're calling it the first fully open source is because, to the best I've found, other papers give you some schematics—and we've referenced those—but there's no one other place that you could go that has the PCB [printed circuit board], the source of diamonds, the designs, the schematics, the firmware, and also a repository of knowledge about how it works so you can get started,' Carney, of the Quantum Village, told WIRED.
While quantum sensors, and certainly the Uncut Gem sensor, still have a long way to go before delivering the accuracy and ease-of-use of a Star Trek tricorder, Carney and Kumaran emphasize that the purpose of the project is simply to get actual quantum technology out to the world as quickly as possible.
'Open sourcing this is really important to us,' Carney says. 'Is it a good sensor? Excuse me, but fuck no. There are much better sensors. Could it be a better sensor? Absolutely, and that will happen if we can get people to take part in open source and iterate it.'
