Quantum Meets is a series of refreshingly different quantum events happening in Amsterdam from May 13 to 16, 2025.
In celebration of the UNESCO International Year of Quantum, this is the premier destination for quantum end-users to discover new technologies, for quantum businesses to connect with industry and investors, and for policymakers to stay on top of industry advancements.
Breaking away from the traditional conference format, Quantum Meets features collaboratively designed, open-access events. Highlighting this year’s lineup again is the second edition of the Q-Expo, a unique two-day event by the European Quantum Industry Consortium (QuIC) featuring a business expo day, a plenary day, and the most awaited quantum community gathering Nodes.
Quantum Innovation Summit 2025 sharpens on ‘Quantum Frontiers: Innovating for a Secure Future.’ This theme underscores the critical role of quantum technologies in addressing the complex challenges of our time, from enhancing global security to promoting health and environmental sustainability. The summit is an invitation to industry leaders, researchers, and policymakers to engage in meaningful dialogue, showcase the latest quantum advancements, and forge strategic partnerships. We aim to foster a collaborative environment where practical solutions emerge, driven by the transformative potential of quantum innovation.
Main Topics
Quantum Computing Applications -Optimization and Logistics: Leveraging quantum computing to solve complex optimization problems in various industries. -Healthcare and Drug Discovery: Accelerating medical research and personalized treatment plans through quantum algorithms. -Sustainable Energy Solutions: Developing quantum materials for more efficient renewable energy sources
Sensing and Photonics -Quantum Sensing: Utilizing quantum sensors for high-precision measurements in healthcare, environmental monitoring, and industrial applications. -Photonics: Exploring the role of photonics in quantum communication, computing, and information processing.
Industry Innovation -Optimization and Logistics: Leveraging quantum computing to solve complex optimization problems in various industries. -Healthcare and Drug Discovery: Accelerating medical research and personalized treatment plans through quantum algorithms.
Investors and Entrepreneurship -Funding Quantum Startups: Insights from venture capitalists and investors on backing quantum innovations. -Startup Success Stories: Case studies and lessons from successful quantum entrepreneurs.
Talent and Workforce Development -Building a Quantum-Savvy Workforce: Educational programs and training to develop the next generation of quantum experts. -Women in Quantum Tech: Highlighting the contributions and experiences of female leaders in the quantum field.
Artificial Intelligence -AI and Quantum Computing: Enhancing AI capabilities with quantum computing to solve complex problems more efficiently and accurately. -Machine Learning: Integrating quantum algorithms with machine learning to drive advancements in predictive analytics and automation.
Quantum Security -Quantum Cryptography: Implementing unbreakable security systems with quantum key distribution and post-quantum cryptography. -Cybersecurity in the Quantum Age: Strategies to protect against quantum-enabled threats and vulnerabilities.
Ethical and Regulatory Considerations -Privacy and Ethics: Addressing the ethical implications of quantum technology and ensuring responsible innovation. -Regulatory Frameworks: Developing standards and policies for the quantum age.
The year 2025 marks the International Year of Quantum Science and Technology, celebrating the centenary of the foundational development of quantum mechanics. To commemorate this milestone, the Quantum Device Research Consortium organises a lecture series highlighting groundbreaking advancements in quantum science and engineering.
Light-based imaging has become indispensable in many areas of science. Modern imaging is focused largely on the principles of classical light, based on electromagnetic wave propagation. This has been most successful with many ground-breaking advances, including imaging at depth through scattering media, super-resolution imaging, and incredible advances in astronomy. There is now a steer to see how quantum principles can enhance our visualisation of the natural world and beyond. Using quantum principles may allow us to supersede classical approaches in terms of parameters such as noise and even realise original imaging modalities. This talk will give an introduction to imaging, focusing on classical advances and exploring the routes by which quantum approaches may add real value to this field. We will discuss non classical properties of sources, including squeezed light and entangled photons, as well as new advanced camera architectures. We will describe how all these may be employed across various optical imaging systems, with a particular focus on biomedical imaging.
AMO physics-based platforms and techniques are some of the most promising systems for the development of quantum simulators, quantum sensors, and interface technologies. Much of this progress owes to the fact that AMO systems can be precisely controlled, and precisely characterized. This school will provide a pedagogical and advanced graduate-level introduction to some of the topics and algorithms.
Kalyan Regional Community Science Centre, Bhavnagar has been holding various scientific awareness Programs in Rural & Urban Areas of Bhavnagar District, Gujarat, India.
Kalyan Regional Community Science Centre, Bhavnagar, Gujarat, India is supported by the Gujarat Council on Science and Technology (GUJCOST), Gandhinagar, Department of Science and Technology, Government of Gujarat.
UNESCO declared 2025 as the “International Year of Quantum Science and Technology,” aiming at developing young minds towards the quantum approach. Hence, KRCSC, Bhavnagar has organised a remarkable lecture on the subject Unlock the Future: The Quantum Era at Shree B M Commerce High School on 1st January 2025, the very first day of the year. The program was arranged for the students of the 11th and 12th science streams. The expert for the quantum speech was Professor Chinmay Vyas (GEC, Bhavnagar). He delivered his excellent knowledge of quantum physics. He also provided information about the progress in the quantum field over several years and future scopes in quantum physics. Around 104 students and Teachers are being benefited.
Aprovechando el inicio del año internacional de la Ciencia y Tecnología Cuánticas, 2025, te invitamos a descubrir cómo la computación cuántica está transformando la resolución de problemas empresariales e impulsando la innovación en nuestro ecosistema. Este evento, dirigido a empresas y parques científicos y tecnológicos interesados en la computación cuántica, será un espacio para explorar colaboraciones, compartir avances y conocer aplicaciones prácticas.
ZFP is a biannual assembly of Polish physicists organized by The Polish Physical Society. The event will be held in Katowice from 5th to 11th September 2025. As the “Quantum” is inherently inscribed into contemporary physics, all sessions will cover a broad range of topics connected to quantum science.
Quantum Week will take place at the Palais de la Découverte, in Paris, from September 23 to 28, 2025. The week is entirely dedicated to quantum science and technology, with experiments, board games, exhibitions, and conferences. A unique opportunity for all ages to discover the mysteries of quantum science.
This week is brought to you by DIM QuanTiP, PCQT, QICS, Quantum Saclay, and SFP in collaboration with the Palais de la Découverte.
The MSCA Doctoral Network “Quantum Safe Internet” is happy to invite quantum enthusiasts to a workshop focused on techniques for quantum-safe network infrastructure, including both post-quantum cryptography and quantum key distribution. The workshop will be held at the Technical University of Denmark in the Copenhagen area on May 12, 2025. We invite external participation and submissions for contributed talks.
Every single advance and insight that has led to the development of today’s quantum computers has been presented and discussed during the International Conference in Low Temperature Physics. For example, the properties of quantum gases, the development of dilution refrigeration, or the superconducting qubits.
The International Conference on Low Temperature Physics (LT30) is the main activity of the C5 commission of the International Union of Pure and Applied Physics (IUPAP). LT30 is a major event in Physics, held only every three years. LT has been regularly organized since 1946 all over the world, see here. It is a great opportunity that the organization of LT30 coincides exactly with the IYQ.
There are usually about 1000 participants and there is an exhibition for companies, where we expect major players in quantum technologies.
The conference will include a public session with a renowned speaker, and we will organize quantum experiments on the street, including superconducting levitation and the demonstration of other quantum phenomena. Organizers have significant experience in dissemination; see, for example, this video or here.
Four major prizes will be awarded, with quite possibly a large protagonism of specific quantum science results. For example, the London and Simon prizes. London prize was awarded to Landau (LT7 Toronto 1960, Nobel 1962), Bardeen (LT8 Londres 1962, Nobel 1972), Josephson (LT12 Kyoto 1970, Nobel 1973), Abrikosov (LT13 Boulder 1972, Nobel 2003), Leggett (LT16 Los Angeles 1981, Nobel 2003), Thouless (LT17 Karlsruhe 1984, Nobel 2016), Müller and Bednorz (LT17 Karlsruhe 1984, Nobel 1987), Wieman and Cornell (LT21 Prague 1996, Nobel 2001) and Ketterle (LT22 Helsinki 1999, Nobel 2001), among other renowned scientists.
