Quantum Computation

Quantum Information

Research Type: 
Theory
Experiment

Quantum information, quantum cryptography (continuous-variable quantum key distribution, quantum cryptography beyond QKD), quantum networks, delegated quantum computing, quantum verification, quantum optics, silicon photonics for quantum technologies, foundations of quantum mechanics

 

Leader: 
Eleni Diamanti, Elham Kashefi, Damian Markham

Quantum Optics Theory Vienna

Website: 
Research Type: 
Theory

nano-/optomechanical systems, superconducting circuits, hybrid quantum systems, ...

Leader: 
Peter Rabl

Atos

Website: 

Atos SE (Societas Europaea) is a leader in digital services with pro forma annual revenue of circa € 12 billion and circa 100,000 employees in 72 countries. Bull is the expert brand for Atos technologies, hardware and software products. Bull is the European leader in HPC and Big Data systems, and a major actor in IT security.

Announcing Quantum - the open journal for quantum science

Summary: 

Quantum is a new, free and open access, peer-reviewed journal that provides high visibility for quality research on quantum science and related fields. It is an effort by researchers and for researchers to make science more open and publishing more transparent and efficient.

Quantum is backed by a non-profit organisation, relies on an international board of highly respected researchers for guidance, practices an open governance, and welcomes community feedback.

You can read more about the mission, the editorial policies, and the people behind Quantum on:
http://quantum-journal.org.

Public call for applications to extend membership of the high-level expert group on quantum technologies

Summary: 

The call aims to include 12 new members from industries with interest in the Quantum Technologies

DG Connect, as follow up to the recent appointment of the High-Level expert group, has opened a public call in order to add 12 more members to the group.

The Call is aimed to industries with interest in the field of Quantum Technologies. Additional members will be individuals appointed to represent a common interest or organisations. Therefore, there will be two types of membership:

Expert group on Quantum Technology Flagship

Summary: 

Following the nomination of the chair, Prof. Mlynek, the Commission has now formally set-up the Commission Expert Group, with 13 very high level academic members, that will provide recommendations on the preparation of the Quantum Technology Flagship.

The Commission Expert Group on Quantum Technologies - High Level Steering Committee has now been established as a high level expert group with a mandate of one year. Its members will best represent collectively the diversity of stakeholders in Europe, both from the academic as from the industrial sides.

The group will be composed of the following academic members:

Quantum Engineering Centre for Doctoral Training

Research Type: 
Theory
Experiment

Quantum engineering is a revolutionary approach to quantum technology. It encompasses both fundamental physics and the broad engineering skill-set necessary to meet the practical challenges of the future.

Leader: 
Mark Thompson

Centre for Quantum Photonics

Research Type: 
Theory
Experiment

Our goal in the Centre for Quantum Photonics is to explore fundamental aspects of quantum mechanics, as well as work towards future photonic quantum technologies by generating, manipulating and measuring single photons as well as the quantum systems that emit these photons.

The Centre spans the School of Physics and Department of Electrical and Electronic Engineering in the Faculties of Science and Engineering, and the Centre for Nanoscience and Quantum Information.

Leader: 
Jeremy O'Brien

QETLabs

Research Type: 
Theory
Experiment

Quantum Communication
Quantum Sensing & Metrology
Quantum Computing

Quantum Engineering Technology Labs:
QET Labs delivers a radically new generation of machines that exploit quantum physics to transform our lives, society and economy:

Leader: 
Jeremy O'Brien

Theoretical Group on Quantum Transport on the Nanoscale

Research Type: 
Theory

 

Quantum transport in quantum dot arrays and low

dimensional systems : 

Long range charge, spin and qubit transfer at the nanoscale.

Effect of hyperfine and spin orbit interactions: spin decoherence and relaxation.

Quantum transport of strongly correlated electrons.

Quantum charge and spin transfer in low dimensional systems with non trivial topology.

AC driven transport in nanostructures:

Leader: 
Gloria Platero
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