Today’s digital security relies on one fragile truth: that breaking today’s encryption standards, using tools available today ...

"It's really forcing us to rethink the fundamentals of how we make sure encryption adapts to dynamic future threats," said ...

Behind the hype lies a grounded, strategic reality: transitioning to post-quantum cryptography is about preparation, not ...

Cryptographers are trying to devise new mathematical schemes to secure data against hypothetical attacks using future quantum computers.

Quantum security research has taken another leap forward, moving closer to reshaping the way sensitive data is protected in ...

Quantum Cyberattacks Are Coming. This Math Can Stop Them In the future, quantum machines will "retroactively break" encryption schemes on today's computers. Here's how we'll protect our data.

Scientists may have uncovered the missing piece of quantum computing by reviving a particle once dismissed as useless. This particle, called the neglecton, could give fragile quantum systems the full ...

The proof, known to be so hard that a mathematician once offered 10 martinis to whoever could figure it out, connects quantum ...

When a guitar string is plucked or a playground swing is set in motion, the movement gradually fades away. Physicists call ...

Physics Said These Quantum Particles Couldn't Exist. Now, Math Has Proven They Can Even for quantum physics, this is weird.

Macquarie University researchers have demonstrated how ordinary supermarket grapes can enhance the performance of quantum sensors, potentially leading to more efficient quantum technologies.

Bringing a power tool from math into quantum computing Date: October 14, 2020 Source: Tokyo University of Science Summary: The Fourier transform is a mathematical operation essential to virtually ...