Combatting disruptive ‘noise’ – a quantum communication breakthrough
Experiment demonstrates how networks can be leveraged to combat disruptive ‘noise’ in quantum communications.
Experiment demonstrates how networks can be leveraged to combat disruptive ‘noise’ in quantum communications.
Experiment success an important step towards implementing ‘quantum internet'.
Griffith University scientists have secured another $2M from the US Department of Defence’s Next Generation Technologies Fund.
Do clocks run slower the closer they are to a nuclear reactor? Griffith University researchers are aiming to find out as they test a revolutionary new theory.
A team of Australian quantum theorists has shown how to break a bound that had been believed, for 60 years, to fundamentally limit the coherence of lasers.
Quantum physicists at Griffith University have unveiled a new paradox that says, when it comes to certain long-held beliefs about nature, “something’s gotta give”.
National Science Week will see a range of events celebrate Griffith's scientific expertise.
Team experimentally obtains distribution of velocity change by reconstructing Bohmian trajectories of single photons.
'Noise-cancelling headphones' are set to revolutionise quantum dynamics.
Griffith's researchers construct a prototype quantum device that generates all possible futures in a simultaneous quantum superposition.