Quantum transduction and piezo-optomechanics, with Rob Stockill, QphoX.
Episode Highlights:
- Overview of QphoX' role and contributions in the rapidly advancing quantum technology field, especially quantum transducers.
- A look at quantum information technology transduction led by Robert Stockill, QphoX' CTO.
- Focused discussion on recent advancements in quantum transducers, devices converting optical and microwave photons.
- Highlights of the creation of and rigorous testing of quantum transducers.
- Explanation on the functionalities and potential uses of quantum transducers in various use cases.
- Conversation about the future prospects and challenges in the field of quantum technology.
- Rob Stockill's predictions and strategies for overcoming hurdles in quantum transducer development.
QphoX show notes:
The press release for our recent €8 Million investment round can be found here:
https://www.eu-startups.com/2024/01/delft-based-qphox-raises-e8-million-to-to-scale-quantum-computers-beyond-proof-of-concept-systems/
For keen listeners you can find a recent article qphox published in Nature Nanotechnology on the technology behind our quantum transducer:
- You can find the published article here:
https://www.nature.com/articles/s41565-023-01515-y
- You can find a plain-language explainer of our work here:
https://qphox.eu/nat_nano_231005
- The open access pre-print is available here:
https://arxiv.org/abs/2210.15702
And the article where we demonstrated optical frequency readout of a superconducting qubit with Rigetti computing and qblox:
https://arxiv.org/abs/2310.06026
- Overview of QphoX' role and contributions in the rapidly advancing quantum technology field, especially quantum transducers.
- A look at quantum information technology transduction led by Robert Stockill, QphoX' CTO.
- Focused discussion on recent advancements in quantum transducers, devices converting optical and microwave photons.
- Highlights of the creation of and rigorous testing of quantum transducers.
- Explanation on the functionalities and potential uses of quantum transducers in various use cases.
- Conversation about the future prospects and challenges in the field of quantum technology.
- Rob Stockill's predictions and strategies for overcoming hurdles in quantum transducer development.
QphoX show notes:
The press release for our recent €8 Million investment round can be found here:
https://www.eu-startups.com/2024/01/delft-based-qphox-raises-e8-million-to-to-scale-quantum-computers-beyond-proof-of-concept-systems/
For keen listeners you can find a recent article qphox published in Nature Nanotechnology on the technology behind our quantum transducer:
- You can find the published article here:
https://www.nature.com/articles/s41565-023-01515-y
- You can find a plain-language explainer of our work here:
https://qphox.eu/nat_nano_231005
- The open access pre-print is available here:
https://arxiv.org/abs/2210.15702
And the article where we demonstrated optical frequency readout of a superconducting qubit with Rigetti computing and qblox:
https://arxiv.org/abs/2310.06026
Creators and Guests
Host
Stephen DiAdamo
Research scientist at Cisco, with a background in quantum networks and communication.
Guest
Robert Stockill
Co-Founder and CTO. Marie Skłodowska-Curie postdoctoral fellow (Delft University of Technology, 2019 – 2021) PhD & PostDoc in Physics (University of Cambridge, 2012 – 2018) Master's Degree in Physics (University of Oxford, 2008 – 2012) My work is centered around trying to understand how we can construct large scale quantum states, both by understanding in detail the dynamics of optically-active quantum systems, and by demonstrating the fundamental protocols for networked quantum information. Happy Place: A well-stocked record store