Innovation, Quantum-AI Technology & Law

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Berichten met de tag Canada
Call for Applications: CIGI Quantum Nexus Emerging Scholars Program for Canadian Strategic Advantage

The Centre for International Governance Innovation (CIGI) is accepting applications for a competitive emerging scholars program attached to The Quantum Nexus: A Framework for Canadian Strategic Advantage in a Contested Domain, a research project supported by the Department of National Defence's MINDS program and led by CIGI Senior Fellow Mauritz Kop. The deadline is July 15, 2026.

A mentorship cohort with a mission

Four to six emerging scholars from across Canada—undergraduates through post-docs, from any discipline—join a virtual program from September to December 2026. The format is deliberately personal: a one-on-one mentorship session with the Principal Investigator, an online international expert workshop in October, and a group masterclass on emerging-technology governance and publication development in November. No prior quantum expertise is required, and applications from equity-deserving groups are strongly encouraged; the program is built on the conviction that good governance of emerging technologies needs many kinds of minds. It is the same conviction that brought a Canadian quantum governance delegation to Stanford to prepare Canada's G7 presidency.

From analytical note to CIGI report

This is a publication program, not a lecture series. Every participant develops a 1,200–1,500-word analytical note on an assigned subtopic within one of six themes—spanning intellectual property and export controls, post-quantum cryptography migration, critical materials and supply chains, quantum-AI convergence, standards and allied interoperability, and the application of the LSI test (least trade-restrictive, security-sufficient, innovation-preserving) to a real case. The notes are contributed to the project's final CIGI report as a dedicated Emerging Scholars annex—a substantive contribution at the start of a research career.

Dates and deadlines

Applying takes one PDF: a 300–500-word expression of interest naming the theme you want to work on, a CV, and one reference letter, sent to programs@cigionline.org (subject line: Emerging Scholars Application: DND MINDS Project). Applications close July 15, 2026; acceptances follow in mid-August; the program runs September through December. For emerging scholars who want to help shape how the quantum age is governed, this is the opening.

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Mauritz Kop Principal Investigator of MINDS Quantum Strategy Grant at CIGI

Waterloo, February 18, 2026—The Centre for International Governance Innovation (CIGI) has awarded Mauritz Kop a new leadership role as Principal Investigator (incoming) of a MINDS Targeted Engagement Grant on Quantum Strategy. The grant advances a central proposition of his recent work: quantum technologies are no longer best understood as a narrow scientific frontier or a conventional innovation file. They have become a strategic domain in which law, industrial policy, intellectual property, defense planning, and geopolitical competition now converge.

That convergence matters because quantum capability is being built in an era of systemic rivalry, supply-chain vulnerability, and technological coercion. In that environment, democratic states cannot afford to treat quantum merely as a research ecosystem problem. They must govern it as part of a broader strategy for safeguarding the democratic industrial commons: the shared base of talent, infrastructure, know-how, trusted supply chains, standards, and institutions on which long-run security, prosperity, and coalition advantage depend.

What MINDS in Defence and Security Is and Why This Grant Fits

The MINDS program—Mobilizing Insights in Defence and Security—is a Canadian Department of National Defence initiative designed to strengthen evidence-based defense policy thinking and foster the next generation of defense and security experts. Its Targeted Engagement Grants provide non-recurring support for projects such as workshops, roundtables, research, and publications, and they are assessed primarily against the annual Defence Policy Challenges.

The current 2025-2026 MINDS challenge set is especially well aligned with the subject matter of this grant. The official challenge framework emphasizes several critical priorities: securing Canada’s sovereignty and continental defense posture; attracting advanced-technology talent across the defense sector; and strengthening the defense industrial base through resilient supply chains and dual-use technologies such as quantum and artificial intelligence. Furthermore, the framework addresses the pressures of strategic competition—including adversarial exploitation of vulnerabilities—and the accelerating adoption of pan-domain, emerging technologies where interoperability, trust, and responsible governance must be preserved.

Strategic Leadership and Human Capital

Kop’s fellowship at CIGI has centered on the governance of transformative technologies, especially quantum technology, AI, dual-use export controls, national security, and intellectual property. The new grant builds directly on that portfolio, but with a more operational mandate. As incoming Principal Investigator, his role will be to provide the project’s strategic and intellectual leadership: conceptualizing the workshop, defining the central themes and policy questions, structuring the panels for direct relevance to Canadian defense audiences, chairing the main event, moderating key expert sessions, identifying high-level contributors, and guiding the project’s analytical outputs.

The Quantum Nexus Paper Behind the Grant

The grant builds on Kop’s recent paper, The Nexus of Quantum Technology, Intellectual Property, and National Security: An LSI Test for Securing the Quantum Industrial Commons, now available on arXiv.

In that paper, he argues that quantum technologies have moved from laboratory structures to the geopolitical stage, and that democratic states therefore need a governance model that is neither naively open nor reflexively protectionist. The paper's contribution is an implementable coalition playbook, offering empirically anchored criteria, templates, and differentiated guardrails - including red zone domains where denial is the default - to avoid both over-securitization and under-securitization. Properly applied, LSI reduces the risk of a self-defeating hard decoupling from China while establishing standards-first interoperability as a stabilizing eigenstate of the international order and enabling RQT by design to shape trusted adoption pathways beyond the coalition, including in the majority world.

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CIGI Publishes Global Quantum Policy Brief by Mauritz Kop and Tracey Forrest

Waterloo, 5 February 2026—The Centre for International Governance Innovation (CIGI) has published a new policy brief, Global Quantum Governance: From Principles to Practice, authored by Mauritz Kop and Tracey Forrest. The brief is written for policy makers, regulators, standards bodies, and industry actors facing a practical transition: quantum technologies are moving from laboratory milestones toward deployment pathways where governance choices—especially around cybersecurity and cross-border infrastructure—become difficult to reverse.

Download the Policy Brief here: https://www.cigionline.org/documents/3746/PB_No.222_Kop_and_Forrest.pdf

Why this brief on quantum governance, and why now

The brief’s central timing claim is that near-term milestones—particularly post-quantum cryptography (PQC) migration and quantum networking—create a governance tipping point. After that point, certain security and societal harms may be costly (or impossible) to remediate. In the brief’s framing, PQC migration is not merely an engineering update; it is a “temporal rights and resilience” imperative because present-day decisions about crypto-agility, key life-cycle management, and data minimization determine whether sensitive data remains protected against future adversaries.

This urgency is paired with a structural diagnosis: national initiatives—including the EU’s proposed Quantum Act—are important, but insufficient on their own given quantum’s dual-use characteristics, global supply chains, and asymmetric capabilities across states and firms. The authors argue for a governance architecture that is “standards-first” and internationally coordinated, capable of sustaining what they call “security-sufficient openness,” and overseen by an International Quantum Agency.

The brief’s recommendations in practical terms

The brief concludes with a multi-pronged path “from principles to practice,” emphasizing four implementable priorities:

  1. Strengthen foundations through standards and PQC execution: align cryptographic profiles across sectors; update procurement so crypto-agility, key life-cycle management, and “harvest now, decrypt later” mitigation become baseline requirements; and adopt “cryptographic resilience” via agile standards, testing, and incident playbooks.

  2. Harmonize among allies: coordinate export controls, investment screening, and supply-chain security via mechanisms such as a proposed G7 Quantum Technology Point of Contact Group and narrowly scoped license-exception approaches in Five Eyes/AUKUS-style arrangements, while avoiding poorly designed measures that impose high compliance costs and chill benign collaboration.

  3. Incentivize global collaboration and capacity building: federate national quantum clouds, SDG-oriented demonstrators, and regional test networks under common governance rules; and consider, longer-term, a “CERN for Quantum” that provides shared access anchored in transparency and equitable access, including for Global South partners.

  4. Institutionalize foresight and bounded algorithmic regulation: resource international foresight capacities—within an IQA-type body or linked observatories—to update risk scenarios and stress-test legal frameworks, while experimenting with limited, well-governed AI-assisted monitoring and red-teaming to inform accountable human decision makers.

Takeaway for AIRecht’s readership

For legal and policy practitioners, the brief’s message is that quantum governance is entering a phase where operational artifacts—standards, benchmarks, procurement baselines, and interoperability profiles—will increasingly determine real-world rights, liabilities, and security outcomes. PQC migration and quantum networking are treated as the near-term proving ground for whether democracies can coordinate “security-sufficient openness” at scale.

For innovators and investors, the brief underscores that governance is not a brake on quantum progress but a design constraint that—if addressed early—can preserve global interoperability, reduce fragmentation, and support responsible diffusion of quantum capability without deepening geopolitical divides.

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Council of Canadian Academies Publishes Quantum Potential Report

The Council of Canadian Academies has released Quantum Potential, the report of an independent expert panel on the responsible adoption of quantum technologies in Canada. Chaired by physicist Raymond Laflamme, the thirteen-member panel included Mauritz Kop—one panel member among the thirteen, whose listed expertise covered the ethical, legal, and policy dimensions—on a question Canada's federal departments had put to the academies: how to turn quantum research strength into broad, responsible adoption.

A national academy weighs in on quantum

Commissioned by Innovation, Science and Economic Development Canada and the National Research Council of Canada, the assessment treats quantum technology as an economic opportunity inseparable from its governance. The panel's reach across physics, economics, and law reflects a recurring premise of quantum policy: the hard questions—data security, market power, regulatory uncertainty, public trust—sit at the seams between disciplines, and the report frames quantum capabilities as advancing ahead of the institutions meant to steer them.

Promise and the adoption gap

The economics are striking. Quantum technologies, the report finds, may account for up to 3% of Canada's GDP by 2045, with quantum computing making the most significant contribution; the sectors most likely to be transformed range from defense and finance to chemistry and materials science. Yet the panel is candid about structural weakness: Canada's quantum expertise is clustered rather than diffused, rival countries are pulling ahead on research output, and there are few programs to encourage end-user adoption. The challenge, in short, is not only invention but diffusion—and anticipating the outcomes of technological change before they arrive.

Responsible adoption, two-handed

The report's normative center is its prescription for responsible adoption: a deliberately two-handed mix of state-sanctioned and self-regulating measures, reaching for anticipatory instruments—quantum impact assessments, soft-law mechanisms, and stakeholder consultation—rather than waiting for harms to crystallize. That posture echoes a recurring theme in the responsible-quantum literature, where governance is framed as a graduated toolbox calibrated to a technology whose risks are still taking shape. The convergence is not an endorsement of any one framework, but it helps explain why the panel drew on members working at the intersection of quantum science and law and policy.

Why it carries weight

National academies do not legislate; their authority is the authority of independent expert synthesis offered to governments deciding how to act. Quantum Potential functions as exactly that—structured evidence and options for Canadian policymakers as the country set its quantum course. Kop's engagement with Canadian and allied quantum governance is of a piece with his wider advisory work, which later included his 2024 consultations with the U.S. Department of State on quantum technology and foreign-policy strategy. For readers tracing how responsible-quantum thinking moves from scholarship into national policy, the report—and the broader body of work catalogued on the Mauritz Kop profile—is a useful waypoint: a moment when an independent panel told a government, in plain terms, that getting both the state-sanctioned and the self-regulating instruments in place early is the practical work of responsible quantum adoption.

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Quantum Days Canada: CCA Panel on Quantum Technologies

When the Council of Canadian Academies brought its quantum expert panel to Quantum Days in January 2023, it did something unusual for a national academy: it opened an unfinished study to public input. Mauritz Kop joined the session to frame the ethical, legal, social, and policy stakes of quantum adoption—and to invite the audience to help shape the questions, not just receive the answers.

A government-commissioned panel, in public

The panel had been formed at the request of federal sponsors, including the National Research Council of Canada and Innovation, Science and Economic Development Canada, and was chaired by the physicist Raymond Laflamme. The Quantum Days appearance gathered members of that panel—Laflamme, Jeff Kinder, Mauritz Kop, and Jacqueline Bartlett among the named participants—to discuss the panel's mandate, key questions, and priorities while its assessment of Canadian quantum adoption was still being written. It was a national study opened up mid-draft, with its conclusions deliberately still open.

Live polls and equitable access

The session's signature move was procedural: the audience was invited to feed the eventual report through live polls, under the banner of helping Canada build a quantum ecosystem. That design choice carries an argument. Responsible quantum governance, on Kop's reading, treats equitable access to quantum-enabled prosperity as a question to be settled by deliberation rather than left to the market, and asks how codes of conduct and design guidelines can be agreed across cultures whose ethical intuitions differ. Live audience input is well suited to surfacing exactly the trade-offs that have no single technically correct answer—and it reflects the distributive themes that run through Kop's broader scholarship on responsible technology.

Why the policy lens belongs at a physics conference

Quantum systems invite governance because their behavior is genuinely unfamiliar. Superposition and entanglement change what computation can do, with consequences for cryptography and security that existing law did not anticipate. The case for an ethical, legal, social, and policy lens at a technical conference is that the rules must be drafted while the science is still moving—a position consistent with the standards-and-principles direction Kop and colleagues set out in the Ten Principles for Responsible Quantum Innovation.

A panel on its way to a report

The Quantum Days session is one step in a longer process. The same panel, under the same chair, is carrying its study through 2023 toward a national assessment of quantum adoption in Canada, with Kop among its members. The sequence—open the questions in public, gather input through live polls, then translate that deliberation into evidence for decision-makers—offers a working model of quantum governance that is both expert-led and publicly grounded, an early example of treating quantum policy as a question worked out in the open rather than a finished product to be announced. (That study became the CCA's Quantum Potential report, published November 30, 2023.)

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Mauritz Kop joins Expert Panel on Quantum Technologies of the Council of Canadian Academies (CCA)

Mauritz Kop joins the multidisciplinary Expert Panel on Quantum Technologies of the Council of Canadian Academies (CCA) over 2022-2023, chaired by Professor Raymond Laflamme. In November 2023, The Expert Panel on the Responsible Adoption of Quantum Technologies published their final report titled Quantum Potential. https://cca-reports.ca/reports/quantum-technologies/

The Council of Canadian Academies (CCA) Investigates Future Impact of Quantum Technologies

As Chair, Dr. Raymond Laflamme will lead a multidisciplinary group with expertise in quantum technologies, economics, innovation, ethics, and legal and regulatory frameworks. The Panel will answer the following question:

In light of current trends affecting the evolution of quantum technologies, what opportunities and challenges do these present in Canada?

The Quantum Potential Report

Quantum technologies are poised to play a major role in Canada’s future, from its national security to its economic standing. While Canada is among the global leaders in quantum research, it nevertheless faces challenges in the adoption of these technologies as they approach market readiness. Quantum Potential, a new expert panel report from the Council of Canadian Academies (CCA), outlines a responsible approach to quantum-technology adoption — a critical step toward ensuring Canada’s global competitiveness in the decades ahead.

Quantum Computing, Sensing, and Communications

Quantum Potential considers quantum computing, sensing, and communications, three categories of quantum technology at varying levels of maturity. While these technologies may strengthen digital infrastructure, improve data security, and optimize processes across a range of economic sectors, they also pose significant risks, such as misuse by malicious actors. Risks associated with quantum technologies span ethical, legal, social, and policy realms; without sufficient consideration, they may compromise public trust in quantum technologies, limit research funding, and stifle innovation.

The Commercialization Potential of Quantum Technologies in Canada

Quantum Potential explores the commercialization potential of quantum technologies, articulates Canada’s position within the global quantum value chain, and examines those conditions and policy levers that might promote their responsible adoption. https://cca-reports.ca/reports/quantum-technologies/

Quantum technologies offer opportunities to harness the properties of quantum mechanics for a breadth of applications, many of them novel. Though many quantum technologies are several years away from reaching market, it is believed that they have the potential to revolutionize many industries as they reach widespread commercial availability. Domestic industries will need to adopt these technologies if they wish to remain globally competitive, as will governments hoping to ensure national and economic security, public safety, and the integrity of critical infrastructure. To date, Canada has made noteworthy investments in the research and development of quantum technologies but has focused less on mechanisms to stimulate their diffusion and adoption.

Ethical, Legal, Social, and Policy Implications (Quantum-ELSPI)

The adoption of quantum technologies also carries significant ethical, legal, social, and policy implications. These include potential threats to data security and digital infrastructure, anticompetitive pressures by market-dominant firms, mass surveillance and privacy loss, regulatory uncertainty, inequitable access to technology, and social challenges related to employment and public trust in science. However, there are many strategies that could help address these challenges and stimulate the responsible adoption of quantum technologies. These include public-private co-operation, pro-competition oversight and policies, industry-led initiatives, and the creation of a diverse quantum workforce. In order to maximize the benefits of quantum technologies while mitigating potential risks, responsible approaches to adoption should use state-sanctioned and self-regulating measures – including quantum impact assessments, soft-law mechanisms, and consultations with stakeholders – to anticipate the effects of technological change.

Thanks to the sponsors National Research Council Canada and Innovation; Science and Economic Development Canada for facilitating this Report.

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