Summary Report on the Refined User Requirements for U.S. Fusion Prototypic Neutron Source

Yutai Kato; Nasr M. Ghoniem; Jaime Marian; George R. Odette; Lance Snead; Jean Paul Allain; Jason Trelewicz; Brian Wirth; Bill Wiffen; Richard Kurtz; Steven J. Zinkle

doi:10.2172/1818707

Summary Report on the Refined User Requirements for U.S. Fusion Prototypic Neutron Source

Yutai Kato
, Nasr M. Ghoniem
, Jaime Marian
, George R. Odette
, Lance Snead
, Jean Paul Allain
, Jason Trelewicz
, Brian Wirth
, Bill Wiffen
, Richard Kurtz
, Steven J. Zinkle

Materials Science and Technology Div

Research output: Other contribution › Technical Report

Abstract

The Fusion Prototypic Neutron Source (FPNS) is proposed as an urgent near-term facility necessary for understanding D-T fusion neutron degradation processes in materials and for the development of high-performance radiation tolerant materials for fusion power reactors. This facility is central to our goal of predicting the behavior of materials in the harsh D-T neutron environment and calibrating and verifying the materials performance models necessary to support design of next-generation fusion reactors. Key FPNS performance metrics were previously defined for the cost-efficient facility necessary to adequately and expediently resolve key materials science knowledge gaps required to move to next-step fusion devices. This brief report is intended to expand upon this previous metrics discussion as an aid to selecting the most desirable FPNS concept and enabling a facility that meets the program needs.

Original language	English
Place of Publication	United States
DOIs	https://doi.org/10.2172/1818707
State	Published - 2021

Keywords

70 PLASMA PHYSICS AND FUSION TECHNOLOGY

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10.2172/1818707

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title = "Summary Report on the Refined User Requirements for U.S. Fusion Prototypic Neutron Source",

abstract = "The Fusion Prototypic Neutron Source (FPNS) is proposed as an urgent near-term facility necessary for understanding D-T fusion neutron degradation processes in materials and for the development of high-performance radiation tolerant materials for fusion power reactors. This facility is central to our goal of predicting the behavior of materials in the harsh D-T neutron environment and calibrating and verifying the materials performance models necessary to support design of next-generation fusion reactors. Key FPNS performance metrics were previously defined for the cost-efficient facility necessary to adequately and expediently resolve key materials science knowledge gaps required to move to next-step fusion devices. This brief report is intended to expand upon this previous metrics discussion as an aid to selecting the most desirable FPNS concept and enabling a facility that meets the program needs.",

keywords = "70 PLASMA PHYSICS AND FUSION TECHNOLOGY",

author = "Yutai Kato and Ghoniem, \{Nasr M.\} and Jaime Marian and Odette, \{George R.\} and Lance Snead and Allain, \{Jean Paul\} and Jason Trelewicz and Brian Wirth and Bill Wiffen and Richard Kurtz and Zinkle, \{Steven J.\}",

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doi = "10.2172/1818707",

language = "English",

type = "Other",

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T1 - Summary Report on the Refined User Requirements for U.S. Fusion Prototypic Neutron Source

AU - Kato, Yutai

AU - Ghoniem, Nasr M.

AU - Marian, Jaime

AU - Odette, George R.

AU - Snead, Lance

AU - Allain, Jean Paul

AU - Trelewicz, Jason

AU - Wirth, Brian

AU - Wiffen, Bill

AU - Kurtz, Richard

AU - Zinkle, Steven J.

PY - 2021

Y1 - 2021

N2 - The Fusion Prototypic Neutron Source (FPNS) is proposed as an urgent near-term facility necessary for understanding D-T fusion neutron degradation processes in materials and for the development of high-performance radiation tolerant materials for fusion power reactors. This facility is central to our goal of predicting the behavior of materials in the harsh D-T neutron environment and calibrating and verifying the materials performance models necessary to support design of next-generation fusion reactors. Key FPNS performance metrics were previously defined for the cost-efficient facility necessary to adequately and expediently resolve key materials science knowledge gaps required to move to next-step fusion devices. This brief report is intended to expand upon this previous metrics discussion as an aid to selecting the most desirable FPNS concept and enabling a facility that meets the program needs.

AB - The Fusion Prototypic Neutron Source (FPNS) is proposed as an urgent near-term facility necessary for understanding D-T fusion neutron degradation processes in materials and for the development of high-performance radiation tolerant materials for fusion power reactors. This facility is central to our goal of predicting the behavior of materials in the harsh D-T neutron environment and calibrating and verifying the materials performance models necessary to support design of next-generation fusion reactors. Key FPNS performance metrics were previously defined for the cost-efficient facility necessary to adequately and expediently resolve key materials science knowledge gaps required to move to next-step fusion devices. This brief report is intended to expand upon this previous metrics discussion as an aid to selecting the most desirable FPNS concept and enabling a facility that meets the program needs.

KW - 70 PLASMA PHYSICS AND FUSION TECHNOLOGY

U2 - 10.2172/1818707

DO - 10.2172/1818707

M3 - Technical Report

CY - United States

ER -

Summary Report on the Refined User Requirements for U.S. Fusion Prototypic Neutron Source

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