Quantum computing replaces the binary digits of classical electric computing with quantum bits which enable information to be processed exponentially faster.
By Ben Pilkington
9 Sep 2019
Quantum computing saves energy by processing complex computations more efficiently than traditional computers, but the overall energy efficiency is still uncertain.
By Sarah Moore
9 Sep 2019
The world is facing a global energy crisis. Consumption of energy is rapidly increasing as our devices require more and more power, and technology becomes more widespread in developing nations.
By Sarah Moore
9 Sep 2019
Quantum sensors relies on the complicated behavior of subatomic particles, allowing scientists to innovate sensors more intuitive and faster than current sensors.
By Sarah Moore
9 Sep 2019
If quantum technology can be reliably built using the semiconductor method of classical electric computing, then the manufacture of quantum computers would be much simpler.
By Ben Pilkington
9 Sep 2019
Ford is recognizing quantum computing's potential and is looking at automotive challenges from a new perspective, teaming up with NASA to help find solutions.
By Sarah Moore
9 Sep 2019
Airbus Group, NASA and Lookheed Martin have made huge investments to investigate quantum computing’s potential uses in aviation.
By Sarah Moore
9 Sep 2019
The landscape of quantum computing and artificial intelligence is not a battlefield, it is and should remain a collaboration.
Quantum dots have a very small diameter, as small as a few nanometers, and are known to exhibit some interesting florescence properties.
By Liam Critchley
9 Sep 2019
In this Thought Leader piece, AZoQuantum spoke to Professor Carsten Welsch about antimatter physics and the AVA organisation.
By Zoe Peterkin
3 Sep 2019