Optically active structural defects in diamond offer a promising qubit platform for quantum computing.
By Ilamaran Sivarajah
27 Apr 2022
Quantum sensing exploits the properties of quantum mechanics to develop ultra-sensitive technology that can detect changes in electric and magnetic fields, and motion.
By Ilamaran Sivarajah
22 Apr 2022
These stellar outbursts on the surface of white dwarfs can burn an amount of stellar material that equates to around 3.5 billion Great Pyramids of Giza in only a few hours.
By Robert Lea
20 Apr 2022
This International Day of Human Spaceflight, humanity looks toward the stars. It has been 61 years since cosmonaut Yuri Gagarin made the first human spaceflight, kicking off the space race and an age of unprecedented discovery.
By Reginald Davey
12 Apr 2022
AZoM spoke to researchers Tobias Weber and Paul Steffens about their research that has focused on skyrmions and their potential to help solve issues of heat generation during information transfer.
By Skyla Baily
8 Apr 2022
The time-independent perturbation theory is a fundamental formalism in quantum mechanics that describes a quantum system that is affected by a small time-independent external force.
By Ilamaran Sivarajah
7 Apr 2022
This article explores the need for photon counting technologies in future projects as well as potential technological options for meeting those objectives.
By Surbhi Jain
5 Apr 2022
AZoQuantum reached out to professor Daniel Persson to discuss quantum gravity and the use of theoretical physics to model our universe.
By Skyla Baily
4 Apr 2022
Multipartite entanglement, in general, allows for applications like increased sensing and multi-user quantum communication protocols. This is explored in research published in the journal Quantum.
By Skyla Baily
31 Mar 2022
Despite lacking mass, particles of light called photons do carry momentum—enough to potentially carry a spacecraft from Earth around the solar system. But how do we calculate this momentum?
By Robert Lea
30 Mar 2022