Investors are pouring money into fusion at record speed, but which technologies, and which companies, will still be standing when the first commercial plant switches on? In this episode, finance industry specialist Stuart Allen breaks down the economics behind the plasma: how valuations are set, where supply-chain bottlenecks hide, and why the entire fusion ecosystem is poised for rapid growth.

About the guest

Stuart Allen is the co-founder and CEO of FusionX Group, which seeks to facilitate the efficient allocation of capital to fusion and the fusion supply chain. Through their news and data platform, FusionX informs the full spectrum of fusion market participants – fusion companies, supply chain, investors, advisers, and public-sector allies. With their series of FusionXInvest meetings, they connect fusion innovators, investors and partners with opportunity in fusion energy, propulsion, and spin-off applications including medical isotopes, remote imaging, and applied superconductivity.

“People call it the holy grail, but I think humanity will be working on fusion for the rest of humanity.”

Recording at the Princeton Plasma Physics Laboratory, fusion scientist Ahmed Diallo lays out the roadmap he calls “Fusion 2.0.” Ahmed explains why advanced fuels, high-field magnets, and clever energy-recovery schemes are reshaping what a commercial plant could look like.

About the guest

Ahmed Diallo is a plasma physicist at Princeton Plasma Physics Laboratory (PPPL) and Fusion Program Director at ARPA-E. His current research spans fuel-cycle engineering, high-heat-flux materials, and advanced-fuel concepts. He also serves as an advisor to start-ups working to bridge the gap between lab demos and commercial fusion plants.

Tritium may not be all that scarce (Canada’s CANDU reactors alone have produced kilograms of it over the years), but keeping a steady, reactor-grade supply is still a major engineering challenge.

In this conversation, Ian Castillo, Co-CEO of Fusion Fuel Cycles, details how the upcoming UNITY-2 testbed will demonstrate the world’s first integrated, commercially relevant fusion fuel cycle. Along the way, he explains why “tritium is the fuel” for today’s machines, how “the breeder really acts as a tritium multiplier,” and what it will take to close the fuel cycle gap between prototypes and commercial fusion power.

About the guest

Ian Castillo leads tritium systems at Fusion Fuel Cycles, where his team is building UNITY-2 to demonstrate the viability of a truly closed tritium loop. He began his career at Canadian Nuclear Laboratories, gaining foundational experience in nuclear technology.

Dr. Troy Carter joins us to share his journey into fusion energy, the activities at Oak Ridge National Laboratory, and the cutting-edge MPEX system. We explore how MPEX will test materials for future fusion reactors under extreme plasma conditions and why it’s key to making fusion power a reality.

About the guest

Troy Carter was named Director of the Fusion Energy Division at Oak Ridge National Laboratory. Troy oversees the division’s world-class technical capabilities in plasma physics, fusion materials, and fusion technologies. He is responsible for developing major projects such as the Materials Plasma Exposure eXperiment, or MPEX, and ORNL’s research contributions to the international ITER experiment.