Quantum Research Receives One Billion Euros in Funding
Aachen, Delft and Jülich join forces to build scalable quantum computers
Quantum science is rapidly evolving towards greater technology maturity throughout the world. To remain at the forefront of this exciting field, collaborations are crucial. On April 20, 2017, the QuTech institute in Delft as well as Forschungszentrum Jülich and RWTH Aachen University, both partners of the Jülich Aachen Research Alliance (JARA), have intensified their collaboration through an official agreement. The partners aim to enhance scientific and technical developments in the field of solid-state quantum computing and to conduct joint campaigns within the framework of the EU flagship on quantum technologies, a €1 billion Horizon 2020 program that was launched in Amsterdam in May 2016.
The signed agreement represents a step towards establishing strong collaborations between Europe’s key players in solid-state quantum information processing (QIP) and high-performance computing (HPC). The partners will combine their skills and knowledge with respect to understanding and fabricating quantum systems with a large number of controllable and reliable qubits. They will also cooperate in the field of scalable solid-state quantum computing to pool their unique skills concerning scalable quantum information processing, the information technology of the future.
“It is an important and exciting time for quantum science in Europe, competing with the best groups all over the world. We are proud that Delft operates at the forefront of this high-tech research and we are excited to collaborate with JARA, another key player in the field.”
(Karel Luyben, Rector Magnificus TU Delft)
“RWTH Aachen started its scientific activities in the field of quantum information as early as 2005. Together with Forschungszentrum Jülich, within the JARA Research Alliance, we are now able to attract highly qualified scientists from this research field to our region.”
(Professor Ernst Schmachtenberg, rector of RWTH Aachen University)
"Quantum information is a central topic within the research field of information, which has been identified as one of the strategic priorities of Forschungszentrum Jülich. We aim to contribute to its systematic further development. Together with our partners in Aachen and Delft, we are seeking to build on existing expertise in this field."
(Professor Wolfgang Marquardt, chairman Forschungszentrum Jülich)
The building blocks of these future computers are quantum bits (qubits) whose strength lies in their ability to be in two states at the same time: 0 and 1. Classical bits can be only 0 or 1. These superpositions allow for huge computing power, helping to meet an ever growing demand. Multiple qubits can share information due to the quantum principle of entanglement. Quantum systems entangled over distances form the basis of quantum networks and cloud computing: unhackable communication channels.
Both QuTech and JARA excel in the field of quantum science and engineering. QuTech has a history of conducting experimental quantum transport research in multiple promising directions for QIP. The JARA partners provide one of Europe’s largest HPC facilities and a long tradition of theoretical studies on quantum information science.
“Combining the expertise, skills, and knowledge of these research partners will help to bring quantum information science to even higher levels. We look forward to reaping the benefits of this collaboration in the coming years.”
(Ronald Hanson, Scientific Director QuTech)
Further major steps are required to scale up the number of qubits on a quantum chip to a quantum system that can outgrow the computation power of the best supercomputers based on classical bits. Therefore, the design and control of quantum chips needs to be taken to the next level. The teams of professor Hendrik Bluhm (Head of the JARA FIT Institute for Quantum Information together with Prof. David DiVincenzo) and professor Lieven Vandersypen (QuTech) contribute to the state-of-the-art expertise of semiconductor quantum chips. The teams will further collaborate on superconducting qubit systems (Dr. Leo DiCarlo, QuTech) and hybrid quantum systems (Professor Stephan van Waasen and professor Krisel Michielsen, Jülich). The expertise of professor Koen Bertels (QuTech) is focused on the architecture and control of many tens of qubits, foreseeing the system challenges that will arise.
The foundations of a network based on quantum entanglement have recently been established in Delft with a ground-breaking experiment by professor Ronald Hanson and theoretical support from professor Stephanie Wehner. Professor David DiVincenzo (Head of the JARA FIT Institute for Quantum Information together with Prof. Hendrik Bluhm), who plays an important role in the theoretical development of protocols for useful quantum computations, will further investigate more specific protocols in the promising topic of network-centred quantum computations in collaboration with QuTech.
One of the major challenges with respect to scalable quantum information processing is the correction of errors in quantum computations. While quantum information is very error-prone, it is also difficult to correct errors without introducing new errors in quantum systems. Professor Barbara Terhal, who has links to both Delft and Jülich, collaborates closely with Dr. Tim Taminiau on the development and implementation of quantum error correction codes.
The signed agreement represents another important step at the forefront of quantum technology. Collaborations: Both QuTech and JARA foresee that this technical agreement will opens the door towards an increase in the number of collaborations between top research centres in Europe to remain at the forefront of quantum information, science, and technology.
Source: Press and Communications