Superconductors, an opportunity for science and society (original) (raw)

At the ‘Catalysing impact - Superconductivity for Global Challenges’ event, stakeholders from the fields of research, industry, politics and finance discussed collaboration on superconducting technologies for the benefit of science and society

Close-up of the cross-section of new superconducting cables developed for powering the High-Luminosity LHC (Image: Corinne Longhi)

Superconductive technologies have long been central to particle physics, but they have also repeatedly moved beyond the laboratory, most notably with the emergence of magnetic resonance imaging scanners (MRI), demonstrating how breakthroughs in fundamental research can benefit society.

Today, as global energy, climate and healthcare pressures grow, the conversation is shifting from “What can science give to society?” to “How can science and industry jointly develop technologies that benefit society while advancing research?”

The event “Catalysing Impact – Superconductivity for Global Challenges” held at CERN in December was aimed precisely at answering this question. The workshop brought together leading researchers, industry representatives, investors and policymakers to explore how collaboration on superconducting technologies can advance particle physics while addressing some of the world’s most pressing societal challenges.

The event sought to bridge fundamental research with real-world deployment and to accelerate collaborative pathways. Across keynotes, panels and round tables, participants examined both the current technological landscape and the opportunities ahead.

Introducing the discussions, Frédérick Bordry, Chief Technology Officer of the Gauss Fusion venture and former CERN Director for Accelerator and Technology, noted that “Superconductivity has become the silent engine of discovery science.”

While the research community needs more capable and more resilient superconductors for the next generation of experiments, they also have significant potential for societal applications. Beyond their role in collider magnets, high-temperature superconductors (HTS) now promise lossless power transmission, compact fusion magnets, efficient renewable systems and new capabilities in healthcare, transport, computing and quantum technologies - all aligned with SDG-17’s emphasis on partnership-driven innovation.

Participants also stressed that major hurdles remain. Global competition is accelerating, and Europe must act quickly to secure technological and economic leadership. Doing so will require coordinated investment and supportive policies, including stronger risk capital investment and mechanisms to bridge the gap between laboratory innovation and industrial deployment.

The summit set in motion several concrete follow-up actions, including aligning R&D roadmaps with societal priorities and the UN Sustainable Development Goals; making it easier for public–private consortia to build demonstrators that serve both industry and research needs; and advancing investment pathways that better connect research institutions, governments and the private sector.

A series of interviews of key participants is available here:

A large group of people stood at the entrance to a white building in three rows.

Participants at the “Catalysing Impact – Superconductivity for Global Challenges” event held at CERN (Image: Marina Cavazza/CERN)