Submitted by
VVilasini on Fri, 01/12/2023 - 11:16.
We are pleased to announce a PhD project in quantum information theory and quantum foundations at Université Grenoble Alpes and Institut Néel at Grenoble, France. The focus of the project will be on quantum causal structures, their interface with relativistic causality and applications for information processing in space-time (see project description below).
Applications are invited for a 2-year postdoc position in the Atomic Frequency Standards group at the National Metrological Institute, Turin, Italy (https://labafs.inrim.it/).
A 2-year postdoc position is available at the group of Mathematical Physics of the University of Tübingen. It is part of the Collaborative Research Center “Mathematics of Many Body Quantum Systems and Their Collective Phenomena” between the University of Tübingen and the Munich universities TUM and LMU. The research project associated with the position lies at the interface between mathematical physics and quantum information theory and will focus on the study of properties of locality, stability, and correlations for quantum many-body systems. The project is led by JProf. Angela Capel and Prof. Stefan Teufel.
Submitted by
JMiszczak on Wed, 29/11/2023 - 13:55.
We are looking for a talented and motivated postdoctoral researcher to work in the field of quantum communications in the group led by prof. V. Ahufinger and in collaboration with prof. Anna Sanpera.
The postdoc is expected to work in propagation of quantum states of light in topological systems.
The position will be based at the Optics group of the Physics Department of the Universitat Autònoma de Barcelona and hangs under the National Spanish Project Quantum Communications funded by EU-Next Generations Funds.
Wir suchen Sie zur Unterstützung in der Abteilung „Theoretische Quantenphysik“ im Projekt R‑QIP. In diesem Projekt untersuchen wir Fehlerquellen in Quantenprozessoren und entwickeln entsprechende Gegenmaßnahmen. Unterstützen Sie das Projekt, indem Sie quantenphysikalische Systeme modellieren und Möglichkeiten für die Implementierung von Quantenfehlerkorrekturmethoden untersuchen. Als Teil unseres Teams erbringen Sie interdisziplinär angelegte Querschnittsleistungen für die anderen Abteilungen des Instituts und arbeiten eng mit Partnern aus der Industrie zusammen. Profitieren Sie von den Weiterbildungs- und Vernetzungsangeboten im Rahmen der Quantencomputing-Initiative des DLR. Legen Sie mit uns zusammen die Grundlage für die Quantencomputer der nächsten Generation.
Submitted by
lunghia on Tue, 28/11/2023 - 15:33.
Background
A fully funded 4-year PhD studentship is available at the School of Physics, Trinity College Dublin, Ireland (www.tcd.ie/Physics). The position is sponsored by the host institution and the European Research Council through the Starting Grant AI-DEMON: Artificial Intelligence Design of Molecular Nano-Magnets and Molecular Qubits.
Submitted by
lunghia on Tue, 28/11/2023 - 15:28.
A 2-year postdoc position is available at the School of Physics, Trinity College Dublin, Ireland (www.tcd.ie/Physics). The position is sponsored by the European Research Council through the Starting Grant AI-DEMON: Artificial Intelligence Design of Molecular Nano-Magnets and Molecular Qubits. The aim of this project is to push the boundaries of the state-of-the-art in the computational modelling and design of magnetic molecules. The interaction between spins and phonons is one of the main limits to the development of spin quantum technologies and in this project we will use first-principles and open quantum systems theory to unravel the details of spin-phonon coupling and develop new magnetic molecules with long spin coherence and lifetime[1-5]. The project will be developed by the group of Prof. Lunghi at the School of Physics, Trinity College Dublin.
Open MSc and PhD positions at the Institute of Physics in the University Federal Fluminense (UFF), Brazil.
The project is in collaboration with Serrapilheira Institute for science and technology.
Research areas:
- Quantum Computing and Information;
- Condensed Matter;
- Quantum Statistical Mechanics;
(more information in the link: https://sites.google.com/view/fernandoieminienglish/research?authuser=0)
Submitted by
luke.marin on Thu, 23/11/2023 - 12:09.
In a world where quantum technology is shaping the future of information technology, we find ourselves at the threshold of a groundbreaking era in communication. Quantum communications harness the unique properties of photons and the optical communication tools developed over the years, enabling us to distribute quantum coherence and secure information to distant recipients, thus paving the way for the quantum internet of tomorrow.
Submitted by
luke.marin on Thu, 23/11/2023 - 12:07.
Quantum communications are revolutionising the way we transmit information and connect remote parties. Leveraging on the quantum properties of photons and on the tools developed for optical communications, it is now possible to create a quantum network that distributes confidential information to distant users with the highest level of security and creates strong quantum correlations - or entanglement - at its nodes, thus shaping the future quantum internet.
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