IPSC 2022 at Stanford: at the first in-person Intellectual Property Scholars Conference after two virtual years (August 11–12, 2022), Mauritz Kop presented his Oxford JIPLP article Intellectual property in quantum computing and market power: a theoretical discussion and empirical analysis, co-authored with Mateo Aboy and Timo Minssen.
When IP stops doing its job
The theory: intellectual property exists to incentivize innovation, but excessive proliferation of exclusive rights over a foundational technology produces anticommons effects — overlapping thickets that raise transaction costs, deter follow-on research and concentrate first-mover market power. Quantum computing, built on decades of publicly funded science, is exactly where that risk bites hardest.
The patent data behind the argument
The empirics: the article analyzes the quantum-computing patent landscape — who files, where portfolios cluster, and what that implies for market structure in a field whose hardware, algorithms and error-correction methods may all carry exclusive rights. Theory says when proliferation harms innovation; the data say where quantum technology stands today.
A transatlantic collaboration, a Stanford homecoming
Kop, Aboy and Minssen connect European and American IP scholarship on quantum computing; for Kop the venue completed a circle, having spent early 2022 as visiting scholar at Stanford Law School. The presentation put the market-power findings before the scholars best placed to attack the methodology — which is what the IPSC works-in-progress format exists to do. And after two virtual editions, the 22nd IPSC's return to a physical Stanford conference room restored the corridor conversations that turn a panel question into a coauthorship.
Standards: the other half of ownership
Beyond patents, quantum interoperability standards will run on disclosure and licensing commitments from the very portfolio holders the article tracks. Whether those commitments are negotiated early, FRAND-style, or after positions harden will shape access to the technology as surely as any patent dispute — and the article's empirical map is groundwork for getting that negotiation right.
Third station of a research arc
From AI's data inputs (IPSC 2020) via waive-or-pledge quantum IP (IPSC 2021) to ownership structure and market power (2022): the sequence tracks a research line moving from machine learning's raw material to quantum computing's ownership structure, each stage workshopped in public before publication. That line later grew into an institutional one — see Stanford University launches the Stanford Center for Responsible Quantum Technology. If early patent concentration hardens into durable market power, access to the field's foundational capabilities narrows before the technology matures; making that risk empirically discussable, rather than rhetorical, is the article's lasting contribution.
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