Innovation, Quantum-AI Technology & Law

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Berichten met de tag OECD
From Kananaskis to Évian: Will the G7 Govern Quantum, or Keep Describing It?

When G7 leaders meet in Évian-les-Bains from June 15 to 17, 2026, quantum technology sits on the leaders' table for a second consecutive year. In a new CIGI op-ed, Stanford and CIGI legal scholar Mauritz Kop argues that the era of shared values and summit language has run its course: between the Kananaskis Common Vision and the OECD Recommendation on Quantum Technologies, the conceptual groundwork is done. What remains is implementation — and implementation is what voluntary coordination delivers slowly, unevenly, or never.

From a Common Vision to Working Machinery

Kananaskis named the right concerns in June 2025 but built light machinery — no timelines, no benchmarks, no procurement commitments. A year on, Kop puts the question to Évian directly: does the G7 intend to govern quantum, or to keep describing it? His answer is not another principles instrument but a delivery body with named products and deadlines, reporting back to leaders at the 2027 summit.

Five Decisions for Évian

The piece sets out five decisions leaders can take in France: post-quantum cryptography migration milestones for critical infrastructure; trusted and resilient quantum supply chains; standards-based governance backed by procurement; dual-use coordination through a least trade-restrictive, security-sufficient and innovation-preserving (LSI) test; and vigilance on the market structure of an industry already concentrating around a few compute-, patent- and talent-rich incumbents.

Each decision turns a value into something auditable. The "harvest-now, decrypt-later" threat makes cryptographic migration a present-tense problem with an unknown deadline; when Google gives itself until 2029, governments that have given themselves ten years should take notice. The same logic runs through supply-chain chokepoints, technical standards and export controls — defaults that will be written by someone, and better written deliberately than by accident.

The Window Is Still Open

Quantum is leaving the laboratory and becoming strategic infrastructure, a shift central banks already treat as systemic. The window for writing the rules of the road remains open, Kop warns, but it will not stay open forever. For the legal and policy background to the dual-use argument, see our coverage of the LSI test for securing the quantum industrial commons.

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OECD Recommendation on Quantum Technologies Builds on Responsible Quantum Principles Developed at Stanford RQT

On May 28, 2026, the OECD Council adopted OECD/LEGAL/0508, the Recommendation of the Council on Quantum Technologies—the first intergovernmental standard to set shared principles for the responsible development and use of trusted quantum technologies. Its four high-level principles and five policy recommendations will read as familiar to anyone who has followed responsible-quantum scholarship, because the instrument's core ideas track work that the Stanford Center for Responsible Quantum Technology and its founder, Mauritz Kop, helped build over the previous half-decade.

The first intergovernmental quantum standard

Developed through a multistakeholder process—forty-seven experts from twenty-six nationalities across four scoping meetings in 2025, building on the OECD's January 2025 Quantum Technologies Policy Primer—the Recommendation asks all Actors to promote innovation that respects democratic values, to prevent and mitigate harms across the technology lifecycle, to promote secure and broad access, to facilitate collaboration, and to foster accountability and trustworthiness. It is non-binding but normatively weighty: thirty-eight adherents are now expected to implement it through their own legal frameworks. The OECD's broader responsible-quantum-technology agenda has long argued that the field needs exactly this kind of shared, anticipatory baseline.

A visible lineage, not a formal citation

The Recommendation names no academic source, and nothing in its text formally credits Stanford RQT. What it shows is conceptual lineage. Its lifecycle-embedded, values-first framing echoes the Ten Principles for Responsible Quantum Innovation; its post-quantum-cryptography and quantum-resilient-infrastructure language draws on the same concern with cryptanalysis that animated Kop's 2021 Yale legal-ethical framework; its accountability-and-trustworthiness principle parallels families in the World Economic Forum Quantum Computing Governance Principles he helped conceptualize; and its call for science-based standards mirrors the standards-first program he and colleagues set out in Science. Kop was among the experts consulted in the course of the OECD's quantum-policy work, an engagement that sits within a longer record of peer-reviewed calls for responsible quantum technology.

Why anticipation is the right posture

Both the Recommendation and the scholarship it echoes favor agile, forward-looking, evidence-based governance—and the physics explains why. Quantum technologies draw their power from superposition and entanglement, phenomena that do not scale gently: an entanglement-enabled sensor can cross a sensitivity threshold, and a cryptanalytically relevant machine can render trusted public-key cryptography suddenly breakable, in ways that arrive nonlinearly. Governance that waits for a capability to mature arrives too late by construction. This is the case the responsible-quantum field, including the Quantum-ELSPI research agenda, has pressed since 2021—and the case OECD/LEGAL/0508 now encodes for thirty-eight economies.

What comes next

The Recommendation tasks the OECD's Digital Policy Committee and Committee for Scientific and Technological Policy to develop practical guidance and to report back within five years, so the standard is built to evolve with the technology. Its arrival signals that these responsible-quantum arguments have reached the institutions that set international norms—a quiet but consequential validation of work begun years earlier at Stanford.

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Mauritz Kop Speaker at United Nations International Year of Quantum Science and Technology 2025

On 31 October 2025, Mauritz Kop, Founder of Stanford RQT (Responsible Quantum Technology), served as one of the main speakers at the North America regional workshop on the Ethical, Legal, and Social Aspects (ELSA) of Broadening Global Ownership of Quantum Technologies. The online workshop was part of the United Nations International Year of Quantum Science and Technology 2025 (IYQ 2025), a year-long initiative mandated by the United Nations General Assembly (UNGA) and led by the United Nations Educational, Scientific and Cultural Organization (UNESCO) to mark 100 years of quantum mechanics and to address the emerging “quantum divide” in access, skills, and infrastructure.

The North America edition was convened by Dr. Zeki C. Seskir and Professor Shohini Ghose as part of a six-region ELSA-of-quantum workshop series. Each regional workshop is feeding into a global IYQ event on the Ethical, Legal, and Social Aspects of Broadening Global Ownership of Quantum Technologies to be held in Istanbul in November 2025.

The program brought together four principal speakers—Mauritz Kop, Bruna Shinohara de Mendonça, Lindsay Rand, and Isabelle Lacroix—and designated commentators Rodrigo Araiza Bravo and Karl Thibault. The workshop closed with an open discussion in which participants reflected on regional needs, expected impact, and the kind of alignment that is necessary for a fair and secure quantum future.

The International Year of Quantum and the North America ELSA Workshop

The International Year of Quantum Science and Technology 2025 was proclaimed by the United Nations General Assembly in June 2024. The resolution calls on states and international organizations to use 2025 to raise public awareness of quantum science, promote education and capacity-building—especially in the Global South—and strengthen cooperation so that all countries can participate in and benefit from quantum technologies.

Within this broader mandate, the ELSA of Broadening Global Ownership of Quantum Technologies initiative focuses on quantum governance. The North America workshop was explicitly framed around three questions:

  1. Which ethical, legal, and social aspects of quantum technologies are most urgent for North America today?

  2. Which ELSA topics are most important globally?

  3. How should the future of ELSA and related policy implications be shaped in Europe, North America, and worldwide, and what forms of alignment are needed?

The three-hour program opened with an overview of the IYQ ELSA event series, followed by the four invited talks, a short break, and then a structured discussion and closing reflections.

From ELSA to ELSPI: A Metaparadigm for Quantum Governance

Kop’s keynote, “From ELSA to ELSPI: A Metaparadigm for Quantum Governance,” drew on his recent work on Quantum-ELSPI and Responsible Quantum Technology, including Quantum-ELSPI: A Novel Field of Research; Ten Principles for Responsible Quantum Innovation (co-authored with, among others, Raymond Laflamme); and his legislative blueprint Towards a European Quantum Act.

He began by defining Quantum-ELSPI (co-developed with Luciano Floridi then at Oxford, now at Yale) as the study of Ethical, Legal, Socio-economic, and Policy Implications of quantum technologies. Classical ELSA—Ethical, Legal, and Social Aspects—was designed for more conventional technologies and, in his view, is too narrow for quantum systems that combine:

  • Dual-use components that can be deployed for both civilian and military purposes;

  • Long security horizons, where sensitive data captured today may be decrypted decades later by cryptanalytically relevant quantum computers; and

  • Fragile supply chains, in which a handful of materials, cryogenic systems, or photonic components create systemic bottlenecks.

To address this, Kop articulated three foundational pillars of the Quantum-ELSPI metaparadigm, developed in a recent Science article with co-authors Mateo Aboy, Urs Gasser, Glenn Cohen, and others:

  1. Standards-First Governance
    Technical and assurance standards—such as post-quantum cryptography (PQC) profiles, quantum quality-management systems, and certification schemes—are treated as the primary vehicle for embedding values into systems. Law, policy, and institutional design are built around these standards rather than attempting to regulate hypothetical risks in the abstract.

  2. Execution-Oriented Ethics
    Ethics is framed as a delivery problem. Instead of high-level value statements, Kop emphasized auditable supply chains, post-quantum cryptography migration drills, and verifiable deployment metrics in sectors such as finance, health care, and government archives. Ethics, in this sense, is measured by what actually ships and how it behaves under stress.

  3. Planetary Welfare
    The third pillar reframes quantum technologies not only as instruments of national competitiveness or military advantage, but as ecological and health technologies. Quantum-ELSPI is thus aligned with the Sustainable Development Goals (SDGs), emphasizing applications in climate modeling, clean-energy materials discovery, quantum-enabled medical technologies, and resilient humanitarian communications.

Taken together, these pillars elevate Quantum-ELSPI from a narrow ethics add-on to a metaparadigm for governing the entire quantum stack—from materials and cryogenic infrastructure to cloud-based access, algorithms, and hybrid quantum–classical systems.

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Mauritz Kop Consults UNESCO and OECD on Ethics and Quantum Technology Policy

Paris, January 9, 2025— As quantum technologies advance at a rapid pace, global institutions are turning to leading experts to help shape the ethical and policy frameworks that will govern this transformative era. Mauritz Kop, a prominent scholar in the field of quantum law and governance Founding Director of the Stanford Center for Responsible Quantum Technology, has been actively consulting with two of the world's foremost international bodies: the United Nations Educational, Scientific and Cultural Organization (UNESCO) and the Organisation for Economic Co-operation and Development (OECD). His contributions are helping to build a global consensus on the responsible development and deployment of quantum technologies.

Expert Opinions for UNESCO and its World Commission on the Ethics of Scientific Knowledge and Technology (COMEST)

UNESCO, through its World Commission on the Ethics of Scientific Knowledge and Technology (COMEST), is at the forefront of establishing global ethical norms for emerging technologies. COMEST is an advisory body composed of leading international scholars tasked with formulating ethical principles to guide decision-makers beyond purely economic considerations.

Recognizing his expertise, COMEST invited Mauritz Kop to an exclusive Expert Hearing on May 13, 2024. This session was convened to gather insights for the Commission's forthcoming landmark report on the "Ethics of the Research, Development and Deployment of Quantum Computing Technologies." Together with three other experts who each presented different perspectives, Kop was asked to present his research on Responsible Quantum Technology, quantum-ELSPI (Ethical, Legal, Societal, and Policy Implications), and bespoke governance frameworks for Quantum Information Science (QIS). His scholarship - often co-authored with RQT Fellows such as Mateo Aboy, Eline de Jong, Mark Brongersma, and Raymond Laflamme, provides the Commission with state-of-the-art analysis of the ethical and governance challenges, helping to enrich the foundation of their upcoming report.

Stanford Law’s Mauritz Kop Provides Recommendations on UNESCO Preliminary Draft: 'Ethics of Quantum Computing'

Following the request to participate in the expert hearing, Stanford Law’s Mauritz Kop was formally invited to provide written recommendations on the "Preliminary Draft Report on the Ethics of Quantum Computing" on January 9, 2025. This invitation underscores the value of his contributions to the Commission's work. While the draft itself remains confidential, its direction can be understood through its public predecessor, the "Concept note of the World Commission on the Ethics of Scientific Knowledge and Technology (COMEST) on the ethics of quantum computing," published on July 24, 2024.

The concept note lays out a comprehensive vision for the ethical governance of quantum computing. It correctly asserts that while quantum technology is still in its early stages, the time to establish ethical guardrails is now, learning from the reactive approach taken with other technologies like social media. The note emphasizes that quantum technology is not neutral; its development and use have profound social and political impacts.

Mauritz Kop Invited by OECD to Speak on Global Policy and National Strategies for Responsible Quantum Technology Development

In addition to his work with UNESCO, Mauritz Kop was invited by the OECD to contribute his expertise to its Global Forum on Technology (GFTech) event, "Future in flux? Global policy issues and national strategies for responsible quantum technology development," held in November 2023. The event was originally scheduled to take place in Tel Aviv, Israel, but was moved to a virtual format due to regional unrest.

Looking Ahead: The International Year of Quantum Science and Technology 2025

The work of UNESCO and the OECD is particularly timely, as the United Nations has officially declared 2025 the International Year of Quantum Science and Technology (IYQ 2025). This global initiative, led by UNESCO, marks the 100th anniversary of the development of modern quantum mechanics and aims to raise global awareness of the importance of quantum science and its applications.

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