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- Deprecated function: SelectQuery::preExecute(): Implicitly marking parameter $query as nullable is deprecated, the explicit nullable type must be used instead in require_once() (line 1884 of includes/database/database.inc).
Submitted by
zvernon on Mon, 09/04/2018 - 18:00.
The selected candidate will be responsible for designing, building, training, and deploying machine learning models on Xanadu’s cutting-edge specialized quantum computing hardware. As part of our Quantum Machine Learning team, they will participate in multiple aspects of machine learning research and development targeted to near-term quantum devices. Other duties may include the training of traditional (non-quantum) machine learning models for comparison and benchmarking purposes.
We are establishing a new research institute headed by Martin Kliesch on quantum computing and related topics, see www.tuhh.de/quantum.
Submitted by
zvernon on Wed, 21/03/2018 - 14:00.
The selected candidates will work with our established team of physicists and engineers to build our integrated photonic quantum computation platform based on the continuous variable (CV) approach. They will be involved in all aspects of the quantum hardware system at Xanadu’s lab: design of photonic components, construction of the apparatus, and carrying out key experiments. They will also be responsible for writing patents and peer-reviewed publications describing these devices and experiments. Successful applicants will have a proven track record of accomplishments in experimental quantum optics, having developed during their research careers cutting-edge techniques for the generation, control, and detection of non-classical light.
Submitted by
Torades on Wed, 21/03/2018 - 11:02.
Multiphoton quantum interference is one of the most intriguing phenomena in quantum physics, and is at the very heart of quantum computing and metrology technologies. However, the post-classical sensing and computational capabilities of multiphoton networks are yet far from being fully explored in practical experimental scenarios.
This theoretical project aims to develop scalable sensing and computational techniques based on the use of optimal linear interferometers with experimentally available photonic input states. The main idea is to exploit the full quantum information encoded in the interferometric evolution of the input photonic quantum states by employing novel measurement techniques (e.g. iterative interferometric dynamics, conditional dynamics, multiplexing and correlation measurements sensitive to the photonic inner and spatial modes).
Start date: 1 October 2018 or 1 February 2019
Application deadline: 7 May 2018
Supervisors: Dr V Tamma, Dr H Yu (Univeresity of Portsmouth), Prof G Adesso (University of Nottingham)
This 3-day workshop on applications of discrete phase space methods in fault-tolerant quantum computing provides a platform for young researchers to present their work while leaving enough opportunities for extended discussions and informal exchange of ideas. The workshop targets equally students entering the field and researchers with a few years of experience.
The Circuit QED Quantum Science group is a new experimental research group in the School of Mathematical and Physical Sciences at the University of Technology Sydney (UTS), led by Associate Professor and ARC Future Fellow, Nathan Langford. A/Prof Langford has recently set up a new research direction for UTS in circuit quantum electrodynamics (circuit QED), establishing the brand new Millikelvin Quantum Science laboratory at UTS with state-of-the-art purpose-built facilities for experiments in circuit QED and microwave quantum optics.
Quantum Physics and Logic is an annual conference that brings together researchers working on mathematical foundations of quantum physics, quantum computing, and related areas, with a focus on structural perspectives and the use of logical tools, ordered algebraic and category-theoretic structures, formal languages, semantical methods, and other computer science techniques applied to the study of physical behaviour in general. Work that applies structures and methods inspired by quantum theory to other fields (including computer science) is also welcome.
Submitted by
wadejong on Wed, 08/11/2017 - 20:20.
Application deadline:
Wednesday, January 31, 2018
Submitted by
phayden on Wed, 11/10/2017 - 23:02.
The Schools of Engineering and Humanities and Sciences at Stanford University invite applications for a tenure-track faculty appointment at the junior level (Assistant or untenured Associate Professor) in the broadly defined field of quantum science and engineering with particular emphasis on all aspects of quantum computing and information. Priority will be given to the overall originality and promise of the candidate’s work over any particular specialization area or department affiliation.
Submitted by
ventu on Fri, 18/08/2017 - 22:29.
Application deadline:
Saturday, September 30, 2017
The Research Scientist for Quantum Computing will design experiments to run on emerging hardware to give insights into quantum approaches to NASA problems of interest, explore the robustness of the hardware, develop best practice programming techniques for quantum hardware, and illuminate the inner workings to better understand the mechanisms that can be used to provide a quantum computational advantage.
Essential Duties/Responsibilities:
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