optics

We seek to appoint an exceptional early career researcher with a background in photonics to conduct research in precision frequency lasers.

Dates: 

Monday, December 7, 2020 to Wednesday, December 9, 2020

Submission deadline: 

Sunday, November 15, 2020

Registration deadline: 

Wednesday, December 9, 2020

AQIS ’20 will focus on quantum information processing, communication and cryptography, an interdisciplinary field bridging quantum physics, computer science, mathematics, and information technologies. AQIS’20 will be a natural successor of EQIS’01-EQIS’05 and AQIS’06-AQIS’19. AQIS’20 will consist of invited talks, and selected oral and poster presentations.

We are seeking an excellent atomic physicist to work within our technical team, to take the lead on aspects of our experimental development. The ideal candidate should have a PhD in AMO physics or other related field, come with good references and be able to show examples of high skill or talent in this field. We are particularly interested in candidates with prior experience in setting up cold atom, BEC or spectroscopy experiments or in candidates who have built frequency-doubled fiber laser systems from off the shelf components.

We are seeking an excellent quantum optics physicist to work within our technical team, to take the lead on aspects of our experimental development. The ideal candidate should have a PhD in quantum optics or other related field, come with good references and be able to show examples of skill or talent in this field. We are particularly interested in candidates with prior experience in photonic quantum computing, non-linear or fibre optics.

For our newly formed theory division located in Toronto, Canada, we are seeking an excellent research scientist to work on various theoretical aspects of quantum computer design and development. This involves, but is not limited to, development of new photonic-based quantum computing architectures, implementation of quantum algorithms to be compatible with the ORCA photonic design and development of tailored fault-tolerant error correcting codes. An important milestone on the way to the photonic fault-tolerant universal quantum computer is a noisy near-term device with limited fault tolerance capabilities. The successful candidate is expected to contribute to its development in close collaboration with the ORCA quantum hardware group.

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