Our latest paper on the frequency conversion across the WDM spectrum is now on the Arxiv. Congrats to Paul for developing the idea and doing the experiment. https://arxiv.org/abs/1907.04468
Read MoreOur latest paper on the frequency conversion across the WDM spectrum is now on the Arxiv. Congrats to Paul for developing the idea and doing the experiment. https://arxiv.org/abs/1907.04468
Read MoreCongrats to Ben on the award of the GU fellowship! Well deserved and looking forward some great results.
Read MoreOur paper in collaboration with Christian Weedbrok from Xanadu has been published on Quantum, the new journal run by the community. Congrats to Daniel and Ben!
Read MoreCongratulations to our post doc Ben Haylock who won the prize for the best presentation at the last CQC2T workshop in Sydney. Ben presented our latest results on squeezing on a chip. Well done Ben!
Read MoreOur latest paper on the generation, manipulation and detection of continuous variable quantum states of light on chip has been published on Science Advances. This is a collaboration with the groups of Prof. Elanor Huntington and Prof. Ping Koy Lam from the Australian National University, and Dr. Hidehiro Yonezawa from the University of New South
Read MoreWell done and well deserved Dr. Haylock!
Read MoreAfter winning the Griffith Science pool of the 3MT, our PhD student Paul Fisher placed second at the Griffith Uni final with a great presentation entitled “Internet over the rainbow”. Well done Paul and enjoy your $750 prize! Here is the video of Paul’s presentation (click here).
Read MoreGrant success for the IQT group. The Australian Research Council awarded close to $900k to our group for the realization of a ion trap-waveguide technology for long distance quantum communications. This is a recognition of the great work done so far by our team.
Read MoreBig congrats to Ben Haylock who was awarded a $3,000 scholarship from SPIE. Here is the official press release from SPIE (click here)
Read MoreOur latest work on an integrated chip that can generate, manipulate and homodying nonclassical light on a chip can be read on https://arxiv.org/abs/1804.07435. This work is a collaboration between several CQC2T groups.
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