Phoenix Project: From Kikuchi to Fastest Path

An exploration of the complex sociotechnical challenges in nuclear energy

Nuclear energy is at a pivotal moment, offering tremendous potential to meet global energy demands while addressing urgent carbon-free environmental needs. However, realizing this potential requires multi- or even transdisciplinary approaches to complex sociotechnical challenges that blend intricate social and technical dimensions. These challenges include technological implementation hurdles, cost overruns, regulatory constraints, a history of public mistrust, community engagement failures, nuclear waste management challenges, security concerns, and equity issues. Addressed separately by various disciplines, these challenges are often exacerbated by disciplinary divides and normative differences. While engineers have favored technological solutions, humanities and social sciences have adopted more critical stances, hindering effective collaboration.

Furthermore, the education of nuclear engineers has traditionally underemphasized sociotechnical aspects, further complicating these issues. However, interdisciplinary research efforts, supported by key funding agencies, are paving the way for innovative solutions.

This symposium seeks to assess progress, identify shared objectives, and explore methodologies and institutional support necessary for advancing sociotechnical research in nuclear energy.

Program Overview

The first day will commence with a welcome, followed by a series of enlightening sessions covering the history and communication of nuclear energy. After a networking lunch, the afternoon sessions will delve into the sociotechnical studies of fusion, regulation, safety, and waste. The day will conclude with a poster session and reception, showcasing the latest research from our presenters.

The second day will feature discussions on nuclear education and culture, missives from practitioners and policymakers, and new pathways for nuclear. After lunch, attendees will have a unique opportunity to engage with experts and peers during the research agenda-setting workshop.

The symposium will culminate with the endowment of the Chihiro Kikuchi Collegiate Professorship to NERS Chair Todd Allen. The late Professor Kikuchi’s interest in public policy issues related to nuclear energy and the international aspects of energy resource development underscores the interdisciplinary approach necessary for today’s complex challenges. The Fastest Path to Zero Initiative embodies this legacy, forging unique research partnerships across the university and with external partners, connecting key research insights with policymakers, and training students for specialized research and engagement roles in the burgeoning clean energy workforce.

About the Michigan Memorial Phoenix Project

The Michigan Memorial Phoenix Project was conceived in 1948 as a living memorial to the 585 university alumni, students, faculty, and staff members who gave their lives in World War II. It is devoted to the peaceful, useful, and beneficial applications and implications of nuclear science and technology for the welfare of the human race. Today, the memorial houses several NERS facilities and projects that support the Phoenix mission, including the Fastest Path to Zero Initiative, the Consortium for Monitoring, Technology, & Verification, the Glenn F. Knoll Nuclear Measurements Laboratory, and more.

About the Fastest Path to Zero Initiative

The Fastest Path to Zero Initiative is dedicated to addressing challenging questions about how policymakers, researchers, and communities can collaborate to achieve ambitious climate goals in Michigan and nationwide. The initiative focuses on building and maintaining external and cross-campus collaborations to optimize the use of nuclear energy in the 21st century. It emphasizes participatory research by developing inclusive approaches to the design and deployment of nuclear energy infrastructure. The team also creates user-friendly decision-support tools to assist advanced nuclear companies in locating potential host communities. A significant aspect of Fastest Path’s work involves researching historical and current nuclear equity and justice issues, as well as understanding community needs and societal preferences.

About Chihiro Kikuchi

Professor Chihiro Kikuchi earned a B.S. degree in Physics at the University of Washington in 1939. He went on to graduate work in mathematics at the University of Cincinnati and received a Master’s degree in 1943. He returned to the University of Washington to pursue a doctoral degree in Physics, which was granted in 1944.

He began his career in Ann Arbor in 1955 as an associate research physicist with the Willow Run Laboratories of the University. His career at Willow Run included advancement to the position of Head, Solid State Physics Group, in 1958. Professor Kikuchi’s original contributions have been recognized by the Smithsonian Institution through their establishment of a permanent exhibit that acknowledges his invention of the ruby maser.

In 1959, he joined the teaching staff of the Department of Nuclear Engineering. His research continued in the area of solid-state physics, radiation effects in materials, and fundamental aspects of material science. His interests have included public policy issues in the development of nuclear energy and the international aspects of energy resource development. His many technical accomplishments have been recognized by his elevation to Fellow status in both the American Physical Society and the American Nuclear Society.

Professor Kikuchi is a contributing author or co-author to three books. His publication record also includes over 80 technical articles in various journals and symposium proceedings.

About Nuclear Technology

Edited by Dr. Yassin Hassan, Nuclear Technology (NT) is the leading international publication reporting new information on the practical application of nuclear science for peaceful uses. expanded reach to its 11,000  global members as well as dozens of research libraries and institutions. It publishes technical papers, technical notes, critical reviews, rapid communications, book reviews, and letters to the editor on all phases of applications of fundamental research to nuclear technology.

Topics include all aspects of reactor technology: operations, safety, materials, instrumentation, fuel, and waste management. Also covered are medical uses, radiation detection, production of radiation, health physics, and computer applications. Authors: Publication of articles in NT is free of charge. Optionally, open-access publication is available for a fee.