In The Media

Weaving quantum processors out of laser light

Weaving quantum processors out of laser light

18/10/2019

RMIT and UNSW Canberra researchers from CQC²T open a new avenue to quantum computing with a breakthrough experiment: a large-scale quantum processor made entirely of light.

In The Media
Quantum Mechanics survives a gravity test

Quantum Mechanics survives a gravity test

01/10/2019

Scientists, including #CQC2T Chief Investigator Prof. Timothy Ralph, have undertaken an experiment in space that could help bring global quantum internet, closer to being part of everyday life.

In The Media
CQC2T Director Prof. Michelle Simmons invited guest at White House state dinner

CQC2T Director Prof. Michelle Simmons invited guest at White House state dinner

24/09/2019

Prof. Michelle Simmons, Director CQC2T, was an invited guest at Donald Trump's state dinner honouring Australian Prime Minister Scott Morrison.

Announcements, In The Media
Prof. Andrew Dzurak awarded 2019 Australian Laureate Fellow

Prof. Andrew Dzurak awarded 2019 Australian Laureate Fellow

13/09/2019

Congratulations to CQC²T Chief Investigator, Professor Andrew Dzurak from UNSW Sydney, for being awarded the prestigious 2019 Australian Laureate Fellowship.

Announcements, In The Media
CQC²T – world’s speediest quantum operation yet

CQC²T – world’s speediest quantum operation yet

18/07/2019

A group of scientists led by 2018 Australian of the Year Professor Michelle Simmons have achieved the first two-qubit gate between atom qubits in silicon.

In The Media
CQC²T Director Prof Michelle Simmons appointed Officer of the Order of Australia

CQC²T Director Prof Michelle Simmons appointed Officer of the Order of Australia

10/06/2019

Congratulations to CQC²T Director Professor Michelle Simmons on her appointment as an Officer of the Order of Australia in the Queen’s Birthday 2019 Honours List.

Announcements, In The Media
Quantum world-first: researchers can now tell how accurate two-qubit calculations in silicon really are

Quantum world-first: researchers can now tell how accurate two-qubit calculations in silicon really are

14/05/2019

Prof Dzurak's team at UNSW have measured the fidelity of two-qubit logic operations in silicon, with highly promising results that will enable scaling up to a full-scale quantum processor.

In The Media
Researchers from Griffith University develop quantum device to generate all possible futures simultaneously

Researchers from Griffith University develop quantum device to generate all possible futures simultaneously

10/04/2019

A team of researchers from Griffith University and NTU Singapore, have constructed a prototype quantum device that can generate all possible futures in a simultaneous quantum superposition.

In The Media
ANU research set to shake-up space missions

ANU research set to shake-up space missions

14/03/2019

CQC2T PhD student Tobias Vogl and CI Prof Ping Koy Lam from ANU has found a number of 2D materials can not only withstand being sent into space, but potentially thrive in the harsh conditions.

In The Media
Universities welcome NSW government backing for Sydney Quantum Academy

Universities welcome NSW government backing for Sydney Quantum Academy

12/03/2019

The new Academy will train the next generation of quantum computing innovators, helping to establish NSW as a global focal point in the rapidly evolving field.  The NSW government has announced support for the establishment…

In The Media
Universities join forces to make Sydney a Quantum Harbour City

Universities join forces to make Sydney a Quantum Harbour City

12/03/2019

Prof Dzurak's team at UNSW have demonstrated that the state, or value, of a quantum bit (qubit) in silicon can be read out in a way that removes the need to have readout sensors alongside the qubits.

In The Media
Quantum scientists demonstrate world-first 3D atomic-scale quantum chip architecture

Quantum scientists demonstrate world-first 3D atomic-scale quantum chip architecture

08/01/2019

CQC2T have shown that their pioneering single atom technology can be adapted to building 3D silicon quantum chips – with precise interlayer alignment and highly accurate measurement of spin state.

In The Media
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