A new kind of diamond will hold a billion Blu-Ray’s worth of data 

It could help overcome a major hurdle to quantum computers: quantum memory.

The future of quantum memory is taking shape in Japan, where researchers have grown diamond wafers that could store the equivalent to one billion Blu-Ray discs worth of quantum data.

Why it matters: Quantum computers use the strange physics of the subatomic world to process calculations far more quickly than classical computers can.

The technology is still in the early stages of development, but if it can overcome the practical hurdles, it could lead to breakthroughs in everything from healthcare to astronomy.

Diamond is one of the most promising materials for quantum memory.

The challenge: Just like classical computers have places where they can store data, quantum ones need their own memory devices.

Diamond is one of the most promising materials for quantum memory because it contains defects known as “nitrogen-vacancy centers” that can store quantum data at room temperature.

The diamond wafers used for quantum memory won’t work properly if their nitrogen content is greater than three parts per billion (ppb), though, and so far, the largest wafers that meet that purity standard are just 4 millimeters in diameter — too small for practical applications.

What’s new? Researchers from Japan’s Saga University and Adamant Namiki Precision Jewel Co. have developed a process for growing diamond wafers, with the correct purity levels, that are 5 centimeters wide — more than ten times the previous record.

They call them Kenzan Diamonds, and the key was allowing the diamond to grow on a stepped substrate, rather than the traditional flat substrate. This reduces stress on the diamond, letting the wafer grow larger without cracking.

This approach also reduces the amount of nitrogen gas needed to accelerate the diamond’s growth, leading to higher purity.

Looking ahead: In May, the researchers will present a paper on their diamond wafers at the CS MANTECH conference in California. They’re now working to double the wafers’ diameter and develop peripheral technology, including polishing tech.

Adamant Namiki’s goal is to have the diamond wafers ready for commercial release in 2023, at which point they could be used by researchers to dramatically increase the quantum memory of in-development computers.

We’d love to hear from you! If you have a comment about this article or if you have a tip for a future Freethink story, please email us at tips@freethink.com.

Related
GitHub CEO says Copilot will write 80% of code “sooner than later”
GitHub CEO Thomas Dohmke goes in depth to answer questions about how AI-powered development will change the future of innovation itself.
No, AI probably won’t kill us all – and there’s more to this fear campaign than meets the eye
A dose of scepticism is warranted when considering the AI doomsayer narrative — there are commercial incentives to manufacture fear of AI.
To fear AI is to fear Newton and Einstein. There are no “dragons” here. 
Who’s afraid of utopia? AI doubters have cold feet. History can warm them.
What is an AI black box? A computer scientist explains
AI black boxes refer to AI systems with internal workings that are invisible to us. What are the implications of working without transparency?
New “tandem” solar cell breaks world record
A new tandem solar cell containing layers of silicon and perovskite has demonstrated an unprecedented efficiency of 33.7%.
Up Next
Subscribe to Freethink for more great stories