Innovation, Quantum-AI Technology & Law

Blog over Kunstmatige Intelligentie, Quantum, Deep Learning, Blockchain en Big Data Law

Blog over juridische, sociale, ethische en policy aspecten van Kunstmatige Intelligentie, Quantum Computing, Sensing & Communication, Augmented Reality en Robotica, Big Data Wetgeving en Machine Learning Regelgeving. Kennisartikelen inzake de EU AI Act, de Data Governance Act, cloud computing, algoritmes, privacy, virtual reality, blockchain, robotlaw, smart contracts, informatierecht, ICT contracten, online platforms, apps en tools. Europese regels, auteursrecht, chipsrecht, databankrechten en juridische diensten AI recht.

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Mauritz Kop Expert at Eric Schmidt backed von Neumann Commission

Stanford, CA – Mauritz Kop, the Frm. Founding Executive Director of the Stanford Center for Responsible Quantum Technology (RQT), has accepted an invitation to serve as an expert on The von Neumann Commission. The announcement, made on February 1, 2025, positions Kop to contribute to a critical global dialogue at the intersection of quantum computing, artificial intelligence, and grand strategy. The Oxford-based, independent research commission is backed by the Eric and Wendy Schmidt Fund for Strategic Innovation and other key institutions. The von Neumann Commission’s inquiry will be multifaceted, addressing the core technical prospects for quantum acceleration, its strategic implications for the global balance of power, the risks to strategic stability, and the necessary governance frameworks to ensure responsible development. The Commission's investigation is set against the backdrop of a new technological paradigm—the convergence of quantum and AI—and is informed by the historical legacy of its namesake, the strategic vision of its sponsors, and the vital perspectives of its experts.

The Quantum-AI Convergence: A New Technological Paradigm

At the heart of The von Neumann Commission's inquiry is the powerful synergy between quantum computing and artificial intelligence. This convergence is not merely additive; it is a cross-pollination that promises to redefine the boundaries of both fields. To understand this, one must first grasp the fundamental difference between classical and quantum computation.

Classical computers, from supercomputers to smartphones, process information using bits, which can exist in one of two definite states: 0 or 1. Quantum computing, by contrast, operates on the principles of quantum mechanics. It uses qubits, which can exist in a state of superposition—representing both 0 and 1 simultaneously. This property, combined with entanglement, where the state of one qubit is instantly correlated with another regardless of distance, allows quantum computers to explore a vast computational space and perform parallel calculations on an exponential scale.

Professor Kop’s Expertise as a von Neumann Commissioner

As a Commission expert, Professor Kop will contribute a multidisciplinary perspective grounded in his extensive research on the law, ethics, societal impact, and policy of quantum and AI. Professor Kop has advised numerous governments and international organizations on their quantum technology strategies, including the United States (notably the Department of State on its quantum foreign policy, U.S. Senators on quantum governance, and as a Guest Professor at the US Air Force Academy), Canada, the United Kingdom, and The Netherlands, as well as multilateral institutions such as the World Economic Forum (WEF), UNESCO, CERN, and the OECD. He has also provided expert guidance to the European Union on landmark AI legislation, including the EU AI Act and the Data Act. His specific contributions to The von Neumann Commission will draw from his expertise in:

● Geostrategy, Democracy, and Authoritarianism: Analyzing the strategic struggle between democratic and authoritarian models of technology governance. This includes his work in Foreign Policy and the Stanford-Vienna Transatlantic Technology Forum on forming a strategic tech alliance among democratic nations and his lectures at institutions like the Hoover Institution on the impact of quantum technologies on the global balance of power.

● Comparative Regulatory and Innovation Models: Analyzing the legal and policy differences between the US, EU, and China. His scholarship, including his "Ten principles for responsible quantum technology" in IOP Quantum Science and Technology, his “Establishing a Legal-Ethical Framework for Quantum Technology” at Yale University, and foundational articles at Harvard Berkman Klein and Nature, dissects these competing models and provides a crucial framework for navigating global strategic competition.

● China’s Quantum and AI Strategy: Providing in-depth analysis of China's legal, ethical, and policy landscape for quantum technologies. This includes evaluating the country's national strategy, its approach to dual use civil-military fusion, its influence on U.S. and E.U. national and economic security through China’s Digital Silk Road Initiative, and its comparative strengths and weaknesses in the global technology race, as analyzed in his “Towards an Atomic Agency for Quantum-AI” scholarship at the European Commission’s Futurium.

● National and Economic Security: Examining the role of export controls, rare earth and critical mineral supply chain vulnerability as published at the Stanford Program on Geopolitics, Technology, and Governance at CISAC / FSI, intellectual property law as published at Berkeley and the Max Planck Institute, and cybersecurity in managing the geostrategic dimensions of quantum technology. His work in these areas, including his contributions to forums like Tel Aviv University's Cyber Week, provides critical insights into protecting strategic assets.

● Standards and Governance: Contributing to the development of robust standards, certification protocols, and performance benchmarks to ensure the safety, reliability, and ethical implementation of these powerful technologies, drawing from lessons from nuclear governance, and from his conferences and seminars at Stanford, Fordham Law, Arizona State, Copenhagen, the Center for Quantum Networks (CQN) and the Centre for International Governance Innovation (CIGI) in Waterloo.

By integrating these insights, Kop will aid the Commission in formulating a holistic understanding of the challenges pertaining to systemic rivalry and great power competition ahead.

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Dutch Ambassador to the US and Consul General visit Stanford Center for Responsible Quantum Technology

Stanford, CA, October 11, 2024— Today, the Stanford Center for Responsible Quantum Technology, situated within Stanford Law School, had the distinct honor of hosting a high-level delegation from the Kingdom of the Netherlands. Stanford RQT Founding Director Mauritz Kop had the pleasure of welcoming Her Excellency Birgitta Tazelaar, Ambassador of the Kingdom of the Netherlands to the United States, and the Honorable Theo Peters, Consul General of the Netherlands in San Francisco, for a series of critical discussions at the intersection of technology, governance, and international security.

The delegation, which also included Attaché for Innovation, Science and Technology Coen Damen, Senior Advisor for Innovation, Technology & Science Tyrone Pater, and Economic Affairs Associate Jasmijn Al Kenany, engaged with our Center on the most pressing challenges and opportunities presented by exponential technologies. This visit underscores the deepening transatlantic dialogue on responsible innovation and the shared commitment of the United States and the Netherlands to forging a future where technological advancement aligns with democratic values and global stability.

A Delegation of Diplomatic Experience

The breadth of the delegation’s expertise provided a rich foundation for our conversations. Ambassador Tazelaar brings three decades of diplomatic experience in political affairs, human rights, and development cooperation. Her distinguished career includes serving as Deputy Director-General for International Cooperation at the Dutch Ministry of Foreign Affairs, Director of the North Africa and Middle East Department, and as a political counselor at the Dutch Embassy in London, where her portfolio included NATO and nuclear security issues. This extensive background in navigating complex geopolitical landscapes proved invaluable to our discussions on international treaties and security frameworks for emerging technologies.

Consul General Theo Peters, who represents the Netherlands across the 13 westernmost states, has a wide-ranging background covering security policy, political affairs, and economic trade. A core part of his mission is to connect the Dutch government and its innovation ecosystem with key partners on the US West Coast, particularly in high-tech sectors. His academic credentials, including an MPA from the Harvard Kennedy School, and prior diplomatic postings in Tokyo and as Ambassador to Senegal and several other West African nations, provided a global perspective on innovation models and economic security.

Cybersecurity, strategic competition and innovation policy

The delegation's specialists brought further focus. Mr. Damen's work on innovation policies, space, and cyber, and his professional interest in how state policy can foster balanced and ecologically sound economic growth, directly informed our dialogue on national strategies. Mr. Pater, also a Tech Diplomacy Fellow at the UC Berkeley Risk & Security Lab, focuses on how like-minded countries can collaboratively stimulate research in critical areas like AI and cybersecurity to address international strategic competition and enhance research and economic security. Ms. Al Kenany, who is pursuing a Master of Science in Cyber Governance at Leiden University, contributed a vital perspective on the role of tech diplomacy in strengthening international relations and ensuring that the benefits of emerging technologies are democratized while safeguarding global security.

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Mauritz Kop Reviews Der Derian’s Project Q: War, Peace and Quantum Mechanics

Stanford University, April 1, 2024—In an era defined by rapid technological acceleration, the quantum revolution looms as perhaps the most profound and least understood transformation on the horizon. It is a domain where the esoteric principles of physics—superposition, entanglement, and uncertainty—are migrating from theoretical blackboards to the geopolitical chessboard. It is this critical, and often unsettling, intersection of science, society, and security that James Der Derian’s consequential new documentary, Project Q: War, Peace and Quantum Mechanics, masterfully explores. Having been graciously invited by the film’s producers at Bullfrog Films to review this important work as the Founding Director of the Stanford Center for Responsible Quantum Technology, Mauritz Kop found it to be an essential primer for what may well be the defining technological challenge of the 21st century.

The film serves as a crucial vehicle for fostering what Mauritz Kop calls ‘quantum literacy’—a foundational understanding of not just the science, but the societal, ethical, and political ramifications of quantum technologies, and their inherent dual-use nature. Der Derian, a distinguished scholar of international relations and director of the Centre for International Security Studies at the University of Sydney, is uniquely positioned to guide this inquiry. He eschews a purely technical exposition, instead weaving a narrative that brings together a diverse chorus of voices: leading physicists, philosophers, national security experts, artists, and historians. This multidisciplinary approach is the film’s greatest strength, transforming a subject that could easily be arcane and inaccessible into a deeply human and urgent conversation.

A Summary of the Film: The Quantum Conundrum

Project Q dives headfirst into the rapidly advancing world of quantum science, highlighting the massive investments by governments, corporations, and universities while probing the unanswered questions about humankind's quantum future. The documentary skillfully unpacks the foundational elements of quantum mechanics for a lay audience. It introduces concepts like complementarity, Niels Bohr’s principle that objects can exhibit contradictory properties, such as being both a wave and a particle, but not simultaneously. It visualizes superposition through the famous Schrödinger's cat analogy, where a particle—or a cat in a box—can exist in multiple states at once until the moment it is observed.

Project Q in Sydney: A Conclave for the Quantum Age

The documentary is inextricably linked to the real-world initiative from which it takes its name. Project Q, based at the University of Sydney, is an ambitious undertaking to bridge the gap between the scientists building the quantum future and the humanists, policymakers, and public who will inhabit it. A ‘quantum risk lab’'. The project’s home is the Q Station in Sydney, a former quarantine station with a history of isolating and managing existential threats. This setting serves as a poignant backdrop, a physical manifestation of the need to grapple with the potentially world-altering implications of quantum technology before they arrive unchecked.

A Must-Watch Call for Quantum Literacy

Project Q is a documentary of profound importance and timeliness. It is a wake-up call, an invitation to a global conversation that has been largely confined to laboratories and classified government briefings. Der Derian has crafted a film that is both intellectually rigorous and deeply accessible, challenging its audience to think critically about the path we are on. By exploring both the risks and benefits of quantum innovation, the film offers a vital multidisciplinary perspective on how this emerging suite of technologies might reshape global peace, security, and politics.

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