Quantum Computing and Quantum Technologies are still very much in the realm of research. Whilst plenty of companies are involved in commercialising quantum technologies, here we list 36 quantum research institutes pioneering quantum computing and quantum technology.
Institute for Quantum Computing (IQC) – University of Waterloo, Canada
Focus: Quantum information science, quantum computing, and quantum communication
Notable researchers: Raymond Laflamme, Michele Mosca, John Watrous
Summary: The Institute for Quantum Computing is dedicated to developing quantum information technologies. It promotes interdisciplinary research and collaboration between physicists, computer scientists, and engineers. The institute aims to explore the potential of quantum computing, communication, and sensing for various applications, ultimately enhancing the capabilities of conventional systems.
IQC has made significant advancements in quantum error correction and quantum cryptography. It also offers a unique educational experience through its graduate programs, allowing students to work alongside leading researchers in the field.
URL: https://uwaterloo.ca/institute-for-quantum-computing/
Quantum Information Science and Technology (QuTech) – Delft University of Technology, Netherlands
Focus: Quantum computing and quantum internet
Notable researchers: Ronald Hanson, Leo Kouwenhoven, Stephanie Wehner
Summary: QuTech is a leading research center focused on creating scalable quantum computing and communication technologies. By working on both hardware and software aspects of quantum systems, the institute aims to develop practical solutions for real-world challenges.
QuTech’s researchers have achieved major milestones in quantum error correction, topological quantum computing, and the development of a quantum internet. The institute is also involved in collaborations with major tech companies to ensure the successful implementation of quantum technologies.
URL: https://qutech.nl/
Max Planck Institute of Quantum Optics (MPQ) – Garching, Germany
Focus: Quantum optics, quantum information, and quantum many-body systems
Notable researchers: Ignacio Cirac, Gerhard Rempe, Immanuel Bloch
Summary: The Max Planck Institute of Quantum Optics is a world-leading research center in quantum optics and quantum information processing. The institute explores fundamental aspects of quantum systems and develops new experimental techniques to manipulate and control individual quantum states.
MPQ’s research spans a wide range of topics, including quantum simulations, quantum communication, and quantum computing. The institute’s researchers have made significant contributions to the development of quantum information processing and the understanding of quantum many-body systems.
National Institute of Standards and Technology (NIST) – United States
Focus: Quantum information science, quantum communication, and quantum computing
Notable researchers: David Wineland, William D. Phillips, John M. Martinis
Summary: NIST is a key player in the development of quantum information science and technology. The institute’s research focuses on quantum communication protocols, quantum sensing technologies, and novel quantum computing architectures. NIST also contributes to the development of quantum standards and metrology.
NIST has been involved in groundbreaking research in quantum computing, quantum communication, and quantum sensing. The institute’s researchers are at the forefront of the development of next-generation quantum technologies that promise to revolutionize various industries.
Centre for Quantum Computation & Communication Technology (CQC2T) – Australia
Focus: Quantum computing, quantum communication, and quantum sensing
Notable researchers: Michelle Simmons, Andrew Dzurak, David Reilly
Summary: The Centre for Quantum Computation & Communication Technology is dedicated to creating advanced quantum technologies. With a focus on silicon-based quantum computing architectures and the exploration of novel quantum communication and sensing protocols, CQC2T aims to bring practical quantum computing solutions to a variety of applications.
The centre has made significant progress in building scalable, silicon-based quantum processors and advancing quantum communication technologies. The collaborative environment at CQC2T brings together leading researchers from various disciplines to accelerate the development of next-generation quantum technologies.
Perimeter Institute for Theoretical Physics – Waterloo, Canada
Focus: Quantum foundations, quantum information, and quantum gravity
Notable researchers: Lee Smolin, Lucien Hardy, Robert Spekkens
Summary: The Perimeter Institute is a leading center for theoretical physics research, focusing on foundational aspects of quantum mechanics, quantum information processing, and the unification of quantum theory with gravity. By fostering collaboration among physicists, mathematicians, and philosophers, the institute seeks to address some of the most profound questions in modern science.
The Perimeter Institute has contributed to major advances in our understanding of quantum mechanics, quantum information theory, and quantum gravity. The institute also offers a range of educational and outreach programs, making it a hub for cutting-edge research and the training of future generations of quantum scientists.
URL: https://www.perimeterinstitute.ca/
Quantum Engineering and Space-Time Research (QUEST) – Leibniz University Hannover, Germany
Focus: Quantum sensing, quantum metrology, and quantum communication
Notable researchers: Karsten Danzmann, Roman Schnabel, Ludovico Lutterotti
Summary: The Quantum Engineering and Space-Time Research center, also known as QUEST, aims to advance quantum technologies by exploring novel quantum sensing and metrology techniques and developing quantum communication systems for secure data transmission. The institute’s research spans a wide range of areas, from fundamental science to applied technologies.
QUEST has made significant contributions to the fields of quantum sensing and quantum communication, with its researchers working on cutting-edge projects such as the development of advanced gravitational wave detectors and the creation of quantum communication networks.
URL: https://www.quest.uni-hannover.de/
Joint Quantum Institute (JQI) – University of Maryland and NIST, United States
Focus: Quantum information, quantum simulation, and quantum materials
Notable researchers: Christopher Monroe, Sankar Das Sarma, Ian Spielman
Summary: The Joint Quantum Institute is a collaborative research center that aims to advance the understanding of quantum phenomena and develop quantum technologies. By fostering collaboration among researchers from the University of Maryland and NIST, JQI explores a wide range of topics, including quantum computing, quantum simulation, and quantum materials.
JQI has made important contributions to our understanding of quantum systems and the development of new technologies, such as the creation of quantum simulators and the investigation of novel quantum materials. The institute’s strong interdisciplinary focus ensures that its research remains at the forefront of the field.
URL: https://jqi.umd.edu/
Center for Quantum Devices (CQD) – University of Copenhagen, Denmark
Focus: Quantum materials, quantum communication, and quantum sensing
Notable researchers: Charles Marcus, Jesper Nygard, Peter Lodahl
Summary: The Center for Quantum Devices is a leading research center focused on the study of quantum materials, quantum communication, and quantum sensing. Its goal is to develop new technologies and devices by exploiting the unique properties of quantum systems, aiming to revolutionize various industries and applications.
CQD has made significant contributions to the understanding of quantum materials and the development of quantum devices. The center’s research includes the investigation of topological materials, the study of quantum communication protocols, and the development of advanced quantum sensing technologies. The interdisciplinary approach at CQD facilitates the rapid advancement of quantum research and its applications.
Paul Scherrer Institute (PSI) – Switzerland
Summary: The Paul Scherrer Institute is a multidisciplinary research center in Switzerland that focuses on a wide range of research areas, including quantum science and technology. PSI has a strong emphasis on fundamental research and the development of novel experimental techniques to investigate quantum systems.
The PSI is home to various research groups working on quantum information science, quantum materials, and quantum computing. These groups collaborate with international partners to drive advancements in the field. Additionally, PSI is equipped with state-of-the-art facilities, such as large-scale research infrastructure, to support the progress of quantum research.
National Institute of Informatics (NII) – Japan
Summary: The National Institute of Informatics in Japan is a leading research institution dedicated to the advancement of informatics, including quantum computing and quantum information science. NII conducts cutting-edge research to develop new algorithms and applications for quantum computing systems.
NII’s research covers a wide range of topics, such as quantum error correction, quantum algorithms, and the development of quantum software. The institute fosters collaboration among researchers and supports the growth of the quantum computing community in Japan and internationally. NII is committed to contributing to the global efforts in quantum computing research and development.
URL: https://www.nii.ac.jp/en/
Centre for Quantum Technologies (CQT) – Singapore
Summary: The Centre for Quantum Technologies at the National University of Singapore is a research centre dedicated to studying quantum science and its applications. CQT focuses on interdisciplinary research, bringing together researchers from physics, computer science, and engineering backgrounds to advance the understanding of quantum phenomena.
CQT is renowned for its quantum communication, cryptography, and computation research. The centre actively collaborates with international partners to drive advancements in quantum technologies and support the development of a global quantum ecosystem. With its cutting-edge research facilities and a team of world-class researchers, CQT is at the forefront of quantum research.
URL: https://www.quantumlah.org/
Quantum Information Science and Technology (QIST) – South Korea
Summary: Quantum Information Science and Technology (QIST) is a research center in South Korea dedicated to the development of quantum information technologies. Supported by the Korea Institute of Science and Technology Information (KISTI), QIST focuses on quantum computing, quantum communication, and quantum sensing research.
QIST promotes collaboration among researchers from various fields, such as physics, computer science, and engineering, to drive innovation in quantum information science. With state-of-the-art facilities and an experienced team of researchers, QIST aims to become a leading player in the global quantum research landscape.
URL: https://qist.kisti.re.kr/eng/
Centre for Quantum Information and Control (CQuIC) – USA
Summary: The Center for Quantum Information and Control (CQuIC) is a research center based at the University of New Mexico in Albuquerque, New Mexico, USA. CQuIC focuses on the control and manipulation of quantum systems, with the goal of developing new quantum technologies and enhancing our understanding of quantum mechanics.
Notable Researchers: Carlton Caves, Ivan Deutsch, and Akimasa Miyake are some of the distinguished researchers at CQuIC. The centre brings together physicists, computer scientists, and engineers to work on projects related to quantum information processing and quantum control.
Quantum Science and Technologies Hub (QST) – United Kingdom
Summary: The Quantum Science and Technologies Hub (QST) is a research center based in the United Kingdom that focuses on developing quantum technologies. QST brings together researchers from several UK universities to work on various aspects of quantum technologies, including computing, sensing, communications, and simulation.
Notable Researchers: Sir Peter Knight, Ian Walmsley, and Winfried Hensinger are among the prominent researchers associated with QST. The hub aims to foster collaboration between academia, industry, and government in order to advance the field of quantum technologies.
URL: https://www.quantum-southampton.org.uk/
National Institute of Informatics (NII) – Japan
Summary: The National Institute of Informatics (NII) is a research institute located in Tokyo, Japan, that focuses on advancing informatics, including quantum computing and quantum information science. NII works on various aspects of quantum technologies, such as quantum algorithms, quantum error correction, and the development of quantum hardware.
Notable Researchers: Kae Nemoto, Masato Koashi, and Shuichiro Sato are some of the distinguished researchers at NII. The institute collaborates with universities, research institutions, and industries both domestically and internationally to advance the field of quantum computing.
URL: https://www.nii.ac.jp/en/
Korea Institute for Advanced Study (KIAS) – South Korea
Summary: The Korea Institute for Advanced Study (KIAS) is a research institution located in Seoul, South Korea, that focuses on advancing basic sciences, including quantum computing and quantum information science. KIAS conducts research in various areas of quantum technologies, such as quantum algorithms, quantum error correction, and the development of quantum hardware.
Notable Researchers: Jaewan Kim and Jinhyoung Lee are distinguished researchers working on quantum information and quantum computing at KIAS. The institute promotes international cooperation and collaboration with other research institutions and universities to advance the field of quantum technologies.
Korea Advanced Institute of Science and Technology (KAIST) – South Korea
Summary: The Korea Advanced Institute of Science and Technology (KAIST) is one of South Korea’s leading research universities, with a strong focus on science, technology, and engineering. KAIST has a dedicated Quantum Information Processing Group within its Department of Physics, which conducts research in various areas of quantum computing, such as quantum algorithms, quantum cryptography, and quantum communication.
Notable Researchers: Prof. Jaeyoon Cho, Prof. Kyungduk Kim, and Prof. Hyunseok Jeong are some of the prominent researchers in quantum computing and quantum information processing at KAIST. They are involved in developing and refining quantum technologies and collaborating with other researchers in the field.
URL: https://physics.kaist.ac.kr/
Quantum Artificial Intelligence Lab (QuAIL) – NASA Ames Research Center, USA
Summary: The Quantum Artificial Intelligence Lab (QuAIL) is a collaborative effort between NASA Ames Research Center, Google, and the Universities Space Research Association (USRA). This research facility is dedicated to studying the potential of quantum computing for artificial intelligence and optimization problems. QuAIL aims to develop new quantum algorithms and solve complex computational problems that are intractable for classical computers.
Notable Researchers: Dr. Eleanor Rieffel, Dr. Davide Venturelli, and Dr. Hartmut Neven are some of the leading researchers at QuAIL. They have made significant contributions to the development of quantum algorithms, quantum optimization, and quantum annealing technologies.
URL: https://www.nas.nasa.gov/quantum/
Yale Quantum Institute (YQI) – Yale University, USA
Summary: The Yale Quantum Institute (YQI) at Yale University is a research center focused on the study of quantum science and engineering. YQI brings together researchers from various disciplines, such as physics, engineering, and computer science, to advance the field of quantum science. The institute’s research areas include quantum computing, quantum communication, quantum simulation, and quantum sensing.
Notable Researchers: Prof. Michel Devoret, Prof. Robert Schoelkopf, and Prof. Steven Girvin are among the prominent researchers at the Yale Quantum Institute. They have made substantial contributions to the development of quantum technologies, such as superconducting qubits and quantum error correction techniques.
URL: https://quantuminstitute.yale.edu/
Canadian Institute for Advanced Research (CIFAR) – Quantum Information Science Program, Canada
Summary: The Canadian Institute for Advanced Research (CIFAR) is a global research organization that brings together top researchers from various disciplines to address complex challenges in science and society. CIFAR’s Quantum Information Science Program, established in 2003, is focused on understanding and harnessing the power of quantum mechanics for applications in computation, communication, and sensing. The program’s research areas include quantum algorithms, quantum error correction, and quantum cryptography.
Notable Researchers: Prof. Gilles Brassard, Prof. Aephraim Steinberg, and Prof. David Poulin are among the prominent researchers involved in CIFAR’s Quantum Information Science Program. They have made substantial contributions to the development of quantum key distribution, quantum measurement, and quantum error correction techniques.
URL: https://www.cifar.ca/research/programs/quantum-information-science
Quantum Materials and Devices (QMD) Lab at the University of British Columbia
The Quantum Materials and Devices (QMD) Lab at the University of British Columbia focuses on the development and understanding of novel quantum materials and their applications in advanced electronic and photonic devices. The interdisciplinary research team investigates a wide range of topics, including two-dimensional materials, topological insulators, and superconductors. Prominent researchers at the QMD Lab include Lukas Chrostowski, who specializes in silicon photonics and integrated quantum devices, and Lukas Chrostowski, who works on quantum materials and nanoscale devices.
University of Oxford – Oxford Quantum
Oxford Quantum is an umbrella organization encompassing various quantum research groups at the University of Oxford. The research topics covered by these groups include quantum materials, quantum computation, quantum theory, and quantum technologies. Oxford Quantum is known for its multidisciplinary approach, involving collaborations between researchers from different fields.
Prominent researchers at Oxford Quantum include Prof. Dieter Jaksch, who works on quantum computation and simulations, and Prof. Andrew Briggs, who focuses on nanomaterials and their applications in quantum technologies. The institute aims to drive the development of quantum technologies and understand the fundamental principles governing quantum systems.
URL: https://www2.physics.ox.ac.uk/research/quantum
University of Cambridge – Centre for Quantum Information and Foundations
The Centre for Quantum Information and Foundations (CQIF) is a research group within the Department of Applied Mathematics and Theoretical Physics (DAMTP) at the University of Cambridge. The center focuses on the foundational aspects of quantum information theory, quantum computation, and quantum cryptography. Prominent researchers at CQIF include Prof. Adrian Kent, Prof. Richard Jozsa, and Dr. Matty Hoban.
CQIF’s research interests encompass a wide range of topics, including quantum algorithms, quantum complexity theory, quantum cryptography, and the study of the quantum-classical boundary. The center also investigates the role of quantum information in other areas of physics, such as quantum gravity and quantum thermodynamics. By exploring the fundamental principles of quantum information, CQIF aims to advance the understanding and development of quantum technologies.
URL: https://www.qi.damtp.cam.ac.uk/
Institut de Recherche en Informatique Fondamentale (IRIF) – University of Paris
Focus: Quantum information theory and quantum algorithms
Notable researchers: Frédéric Magniez, Iordanis Kerenidis
The Institut de Recherche en Informatique Fondamentale (IRIF) is a research institute affiliated with the University of Paris. It focuses on various aspects of theoretical computer science, including quantum computing. The quantum computing research at IRIF centres around quantum information theory and the development of quantum algorithms. The institute has made significant contributions to the field of quantum computing, with researchers like Frédéric Magniez and Iordanis Kerenidis leading the way. Their work has contributed to our understanding of quantum computing models, complexity theory, and quantum communication.
URL: https://www.irif.fr/
Institut Néel – CNRS
Focus: Experimental quantum computing and quantum materials
Notable researchers: Wiebke Drenckhan, Hélène Bouchiat
The Institut Néel is a research center operated by the French National Centre for Scientific Research (CNRS). It is located in Grenoble, France, and focuses on condensed matter physics, with a strong emphasis on quantum computing and quantum materials. The institute’s research ranges from experimental quantum computing to the design and development of new materials with quantum properties. Notable researchers at the Institut Néel include Wiebke Drenckhan and Hélène Bouchiat, who have made significant contributions to the understanding of quantum materials and the development of novel quantum computing devices. The institute’s work has laid the groundwork for future breakthroughs in quantum technology.
URL: http://neel.cnrs.fr/
Max Planck Institute of Quantum Optics (MPQ)
The Max Planck Institute of Quantum Optics (MPQ) is located in Garching, Germany. It is a leading research institution that focuses on the study of quantum optics, quantum information, and the interaction of light with matter. The institute is home to a number of eminent scientists such as Gerhard Rempe, Immanuel Bloch, and Ignacio Cirac, who work on topics like quantum communication, quantum simulations, and quantum many-body systems.
The MPQ has made significant contributions to the development of novel quantum technologies and the understanding of the fundamental aspects of quantum physics. The institute’s researchers actively collaborate with other institutions and companies worldwide to further their research and contribute to the global quantum community. The MPQ aims to push the boundaries of quantum research and explore practical applications of these technologies.
Institute for Quantum Computing (IQOQI) Vienna
The Institute for Quantum Computing (IQOQI) in Vienna is an interdisciplinary research center that focuses on quantum information science and quantum technologies. The institute is part of the Austrian Academy of Sciences and is associated with the University of Vienna. Notable researchers at IQOQI Vienna include Anton Zeilinger and Philip Walther, who are well-known for their work on quantum communication, quantum cryptography, and quantum teleportation.
IQOQI Vienna is committed to advancing the understanding of the fundamental principles of quantum physics and their applications in quantum computing, communication, and cryptography. The institute conducts both theoretical and experimental research, often collaborating with other research institutions and industry partners. With its strong focus on quantum information and interdisciplinary approach, IQOQI Vienna is a significant contributor to the global quantum research landscape.
URL: https://www.iqoqi-vienna.at/
Centre for Quantum Computation & Communication Technology (CQC2T)
The Centre for Quantum Computation & Communication Technology (CQC2T) is a leading quantum research institute in Australia, based at the University of New South Wales (UNSW). The center focuses on the development of scalable quantum processing units, quantum communications, and quantum information systems. Prominent researchers at CQC2T include Professor Michelle Simmons, a pioneer in the field of quantum computing, and Professor Sven Rogge, an expert in quantum materials and devices.
The CQC2T’s research is concentrated on realizing large-scale quantum processors, and developing practical quantum communication systems. They aim to achieve these goals by harnessing the unique properties of quantum mechanics and pushing the boundaries of quantum science. The center collaborates with industry partners and other research organizations, both nationally and internationally, to bring quantum technologies closer to reality.
ARC Centre of Excellence for Engineered Quantum Systems (EQUS)
The ARC Centre of Excellence for Engineered Quantum Systems (EQUS) is another prominent quantum research institute in Australia, with nodes at the University of Queensland, the University of Sydney, the University of Western Australia, and the Australian National University. EQUS’s mission is to develop advanced quantum technologies by designing and constructing quantum machines that can be applied in areas such as sensing, imaging, and computing. Notable researchers at EQUS include Professor Andrew White, an expert in quantum information and quantum computing, and Professor Warwick Bowen, a specialist in quantum sensing and quantum metrology.
EQUS brings together researchers from various disciplines, such as physics, engineering, and materials science, to collaborate on projects that aim to address fundamental scientific challenges and pave the way for future quantum technologies. The center focuses on three primary research themes: quantum-enabled sensing and metrology, quantum-enabled imaging, and quantum systems design and verification. By fostering a collaborative and interdisciplinary research environment, EQUS aims to accelerate the development of practical quantum devices and systems.
URL: https://equs.org/
Hefei National Laboratory for Physical Sciences at the Microscale (HFNL)
HFNL is located at the University of Science and Technology of China (USTC) in Hefei, Anhui Province. It is a multidisciplinary research institution focusing on quantum information and quantum technology, among other fields. Prominent researchers at HFNL include Pan Jianwei, who has made significant contributions to quantum communication and quantum entanglement.
Summary: The Hefei National Laboratory for Physical Sciences at the Microscale conducts cutting-edge research in quantum information and quantum technology. The facility is known for its work in quantum communication, quantum entanglement, and other related fields. The lab has achieved several milestones, including establishing the world’s first secure quantum communication network and setting a new record for entangled photon pairs generated in a single experiment.
URL: http://www.hfnl.ustc.edu.cn/
Shanghai Branch of the Chinese Academy of Sciences – CAS Center for Excellence in Quantum Information and Quantum Physics
The Shanghai Branch of the Chinese Academy of Sciences (CAS) hosts the CAS Center for Excellence in Quantum Information and Quantum Physics. This center focuses on fundamental and applied research in quantum information and quantum physics, including quantum computing, quantum communication, and quantum sensing. Some notable researchers at this center include Lu Chaoyang, known for his work on photonic quantum computing.
Summary: The CAS Center for Excellence in Quantum Information and Quantum Physics is a leading research institution in China, focusing on both theoretical and experimental aspects of quantum information science. The center’s research areas include quantum computing, quantum communication, quantum sensing, and other related topics. Researchers at the center are working on developing new quantum technologies and improving the understanding of quantum physics, with the ultimate goal of advancing the field of quantum information science.
These are just two examples of quantum research institutes in China. There are many more institutions and universities in the country with dedicated quantum research programs and facilities.
Quantum Research Group at the University of KwaZulu-Natal, South Africa
Focus: Quantum communication, quantum computing, and quantum machine learning
Prominent researchers: Prof. Francesco Petruccione, Dr. Ilya Sinayskiy, Dr. Yaseera Ismail
The Quantum Research Group at the University of KwaZulu-Natal, based in South Africa, specializes in quantum communication, quantum computing, and quantum machine learning. The group aims to develop a better understanding of the fundamental aspects of quantum information processing and apply this knowledge to real-world applications. They are involved in numerous projects, ranging from the theoretical aspects of quantum information to experimental realizations of quantum technologies.
Prof. Francesco Petruccione, the group’s leader, is an expert in open quantum systems and quantum information processing. Dr. Ilya Sinayskiy, another key researcher, focuses on quantum computing and machine learning, while Dr. Yaseera Ismail’s work primarily revolves around quantum communication and cryptography. The Quantum Research Group actively collaborates with international partners, striving to contribute to the global advancement of quantum technologies.
URL: https://quantum.ukzn.ac.za/
Quantum Information and Computing Group at the National Institute for Theoretical Physics (NITheP), South Africa
Focus: Quantum information theory, quantum cryptography, quantum computing, and quantum communication
Prominent researchers: Prof. Mark Tame, Prof. Andrew Forbes, Dr. Thomas Konrad
The Quantum Information and Computing Group is part of the National Institute for Theoretical Physics (NITheP) in South Africa. This group focuses on various aspects of quantum information science, including quantum information theory, quantum cryptography, quantum computing, and quantum communication. They work on both the theoretical and experimental aspects of quantum technologies, striving to contribute to the global efforts in these fields.
Prominent researchers at the Quantum Information and Computing Group include Prof. Mark Tame, an expert in quantum information theory and the leader of the group, Prof. Andrew Forbes, who specializes in quantum communication and optical technologies, and Dr. Thomas Konrad, who focuses on quantum computing and quantum communication. The group collaborates with numerous national and international partners, ensuring that their research remains at the forefront of quantum technology development.
URL: https://www.nithep.ac.za/
University College London – UCL Quantum Science and Technology Institute (UCLQ)
Prominent Researchers: Prof. Sougato Bose, Prof. John Morton, Prof. Jonathan Oppenheim
Focus: Quantum Computing, Quantum Simulation, Quantum Sensing, and Quantum Communication
The UCL Quantum Science and Technology Institute (UCLQ) at University College London is a world-class research center dedicated to advancing quantum science and technology. UCLQ focuses on a variety of research areas, including quantum computing, quantum simulation, quantum sensing, and quantum communication. The institute is home to a number of top researchers, such as Prof. Sougato Bose, Prof. John Morton, and Prof. Jonathan Oppenheim. UCLQ fosters strong collaborations with industry partners, ensuring that its research contributes to the development of practical applications in the quantum technology sector.
URL: https://www.ucl.ac.uk/quantum/
Trinity College Dublin – Trinity Centre for Quantum Information Science and Quantum Computing
Prominent Researchers: Prof. Stefano Sanvito, Prof. John Goold, Prof. Mauro Paternostro
Focus: Quantum Materials, Quantum Information Theory, Quantum Thermodynamics, and Quantum Technologies
Trinity Centre for Quantum Information Science and Quantum Computing at Trinity College Dublin is a leading research institute in Ireland. The center is dedicated to advancing the understanding of quantum information science and the development of quantum computing technologies. Its research areas include quantum materials, quantum information theory, quantum thermodynamics, and quantum technologies. The institute boasts a strong roster of researchers, including Prof. Stefano Sanvito, Prof. John Goold, and Prof. Mauro Paternostro. The center actively collaborates with other institutions and industry partners, ensuring that its research contributes to the broader quantum technology landscape.