In this article, we examine quantum computing and how it can impact every day life.
Quantum computing is believed by many researchers to be the next step forward in information technology.
By Ben Pilkington
9 Sep 2019
Semiconductors are materials whose electrical conductivity is between that of an insulator (like rubber) and that of a conductor (like copper).
By Ben Pilkington
9 Sep 2019
Quantum teleportation is the process of transporting quantum information to a new location, while destroying it at it’s starting location.
By Sarah Moore
9 Sep 2019
While still in its infancy, quantum technology is already preparing to disrupt industries worldwide, and aviation is one of the first sectors already getting on board with it.
By Sarah Moore
9 Sep 2019
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