Postdoctoral Research Assistant in Ion Trap Quantum Computing
Applications for this vacancy closed on 3 March 2025 at 12:00PM
Applications are invited for two Postdoctoral Research Assistants in Ion Trap
Quantum Computing.
The posts are available initially for a fixed-term duration of 2 years, with
the possibility of extension depending on funding.
The Oxford Ion Trap Quantum Computing group currently hosts one of the world’s
highest performance networked quantum computing demonstrators, capable of
remote Bell-pair production at rates approaching 200Hz. To greatly increase
this rate and open the door to a wealth of new experiments, we aim to
integrate sub-millimetre scale optical cavities into the structure of novel,
3D microfabricated ion traps. By combining radical new approaches to cavity
and trap fabrication, we will demonstrate a reliable and scalable ‘matter-
light network interface’, capable of near-deterministic generation of high-
fidelity ion-photon entanglement. This offers the potential for remote Bell
pair production at rates of 100kHz, comparable to the speed of local
entangling gates; a major step towards the realisation of large-scale
networked quantum computation.
We seek 1-2 highly-motivated and technically-skilled scientists to join our
team in pushing networked-based quantum computing to the next level. As well
as driving forward the design, development and implementation of the cavity-
mediated photonic entanglement experiment, duties will include preparing
scientific papers, presentations and reports, assisting with the supervision
of graduate and project students and contributing to the smooth running of the
wider group.
The post-holders will have the opportunity to teach.
Applicants should hold, or be close to obtaining, a doctorate in physics or a
related field, and ideally possess a strong background and/or interest in
experimental quantum optics or atomic physics.
Previous experience in the field of ion or atom trapping or quantum optics
will be highly desirable.
Candidates will be expected to demonstrate a good understanding of the
relevant basic theory, skills in data analysis and numerical modelling, and a
strong research track record.
Please direct enquiries about the roles to: Dr Joe Goodwin,
joseph.goodwin@physics.ox.ac.uk
Only applications received before midday (UK time) 3 March 2025 can be
considered. You will be required to upload a statement of research interests,
CV and details of two referees as part of your online application.
Quantum Computing.
The posts are available initially for a fixed-term duration of 2 years, with
the possibility of extension depending on funding.
The Oxford Ion Trap Quantum Computing group currently hosts one of the world’s
highest performance networked quantum computing demonstrators, capable of
remote Bell-pair production at rates approaching 200Hz. To greatly increase
this rate and open the door to a wealth of new experiments, we aim to
integrate sub-millimetre scale optical cavities into the structure of novel,
3D microfabricated ion traps. By combining radical new approaches to cavity
and trap fabrication, we will demonstrate a reliable and scalable ‘matter-
light network interface’, capable of near-deterministic generation of high-
fidelity ion-photon entanglement. This offers the potential for remote Bell
pair production at rates of 100kHz, comparable to the speed of local
entangling gates; a major step towards the realisation of large-scale
networked quantum computation.
We seek 1-2 highly-motivated and technically-skilled scientists to join our
team in pushing networked-based quantum computing to the next level. As well
as driving forward the design, development and implementation of the cavity-
mediated photonic entanglement experiment, duties will include preparing
scientific papers, presentations and reports, assisting with the supervision
of graduate and project students and contributing to the smooth running of the
wider group.
The post-holders will have the opportunity to teach.
Applicants should hold, or be close to obtaining, a doctorate in physics or a
related field, and ideally possess a strong background and/or interest in
experimental quantum optics or atomic physics.
Previous experience in the field of ion or atom trapping or quantum optics
will be highly desirable.
Candidates will be expected to demonstrate a good understanding of the
relevant basic theory, skills in data analysis and numerical modelling, and a
strong research track record.
Please direct enquiries about the roles to: Dr Joe Goodwin,
joseph.goodwin@physics.ox.ac.uk
Only applications received before midday (UK time) 3 March 2025 can be
considered. You will be required to upload a statement of research interests,
CV and details of two referees as part of your online application.
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Department of Physics, Clarendon Laboratory, Parks Road, Oxford
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| vacancy:applicationClosingDate |
2025-03-03 12:00:00+00:00
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| vacancy:applicationOpeningDate |
2024-12-12 08:00:00+00:00
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False
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| comment |
Applications are invited for two Postdoctoral Research Assistants in Ion Trap Quantum Computing. The posts are available initially for a fixed-term duration of 2 years, with the possibility of extension depending on funding. The Oxford Ion Trap Quantum Computing group currently hosts one of the world’s highest performance networked quantum computing demonstrators, capable of remote Bell-pair production at rates approaching 200Hz. To greatly increase this rate and open the door to a wealth of new experiments, we aim to integrate sub-millimetre scale optical cavities into the structure of novel, 3D microfabricated ion traps. By combining radical new approaches ... Applications are invited for two Postdoctoral Research Assistants in Ion Trap
Quantum Computing. The posts are available initially for a fixed-term duration of 2 years, with the possibility of extension depending on funding. The Oxford Ion Trap Quantum Computing group currently hosts one of the world’s highest performance networked quantum computing demonstrators, capable of remote Bell-pair production at rates approaching 200Hz. To greatly increase this rate and open the door to a wealth of new experiments, we aim to integrate sub-millimetre scale optical cavities into the structure of novel, 3D microfabricated ion traps. By combining radical new approaches to cavity ... |
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Postdoctoral Research Assistant in Ion Trap Quantum Computing
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177221
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