Quantum hardware is advancing faster than the rules meant to govern it. In A Principled Approach to Quantum Technologies (posted as a preprint on SSRN), Mauritz Kop—Founder of the Stanford Center for Responsible Quantum Technology—surveys the 2024–2025 wave of breakthroughs from Google, IBM, D-Wave, Quantinuum, and Microsoft, and argues that the governance gap should be closed now, through the Stanford RQT framework and its Ten Principles for Responsible Quantum Innovation, rather than by waiting for comprehensive regulation.
Capability is outpacing governance
The paper reads the hardware moment carefully: Google's 105-qubit Willow crossing the below-threshold error-correction milestone; IBM's modular roadmap; D-Wave's 4,400-plus-qubit Advantage2 and its 2025 supremacy claim on a materials-simulation problem; Quantinuum and Microsoft's progress on logical qubits; and Microsoft's Majorana 1 topological chip, presented as a scientific advance still facing real scaling challenges. The trajectory—rising capability across computing, simulation, sensing, networking, and quantum/AI hybrids—is what makes governance urgent, because the field still lacks unified interoperability standards, certification, benchmarking, and quantum-ready quality-management systems.
Quantum-ELSPI and dual use
The governance frame is Quantum-ELSPI: the ethical, legal, socio-economic, and policy implications of quantum technology. Because second-generation quantum systems directly harness superposition, entanglement, and tunneling, their dual-use character is acute—quantum simulation can yield vaccines or weapons, sensors can serve the environment or surveillance—and a sufficiently capable machine could break today's encryption, making preparation for "Q-day" through post-quantum cryptography and NIST standards a present-tense task. The paper draws an explicit lesson from nuclear technology—society justifies medical and energy uses while doing little about the destructive extreme—an asymmetry quantum governance should not repeat. The deeper lessons come from a community Kop helped build, surveyed in the second annual Stanford Responsible Quantum Technology Conference.
The RQT framework and SEA
The constructive answer is Responsible Quantum Technology, operationalized through Ten Principles organized under safeguarding, engaging, and advancing (SEA) quantum technologies, society, and humankind—the aim being to safeguard society through advancing quantum technology, a responsible but pro-innovation stance. The framework also folds in the four dimensions of Responsible Research and Innovation—anticipation, reflexivity, inclusion, and responsiveness—and treats regulation as a balancing act, invoking the Collingridge dilemma to argue for anticipatory governance before the technology becomes locked in. Absent formal regulation beyond security and export controls, stakeholders are urged to adopt self-regulatory quantum-technology-assessment tools to monitor, validate, and audit applications across their life cycle—an approach the paper frames as both a public good and a first-mover advantage. Kop developed this institutional home as the center's founder, whose launch at Stanford set the agenda the paper now systematizes. Its governing maxim—quantum R&D kept "as open as possible, and as closed as necessary"—frames a deliberate path through the current regulatory vacuum.
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