Ranking the Importance of Nuclear Reactions for Activation and Transmutation Events

W. Arter, J.G. Morgan, Samuel D. Relton, Nicholas J. Higham

Type: Article

Publication Date: 2016-10-31

Citations: 3

DOI: https://doi.org/10.13182/nse15-23

Abstract

Pathways-reduced analysis is one of the techniques used by the FISPACT-II nuclear activation and transmutation software to study the sensitivity of the computed inventories to uncertainties in reaction cross sections. Although deciding which pathways are most important is very helpful in for example determining which nuclear data would benefit from further refinement, pathways-reduced analysis need not necessarily define the most critical reaction, since one reaction may contribute to several different pathways. This work examines three different techniques for ranking reactions in their order of importance in determining the final inventory, comparing the pathways-based metric (PBM), the direct method, and a method based on the Pearson correlation coefficient. Reasons why the PBM is to be preferred are presented.

Locations

Nuclear Science and Engineering - View
arXiv (Cornell University) - View - PDF
CiteSeer X (The Pennsylvania State University) - View - PDF
MIMS EPrints (University of Southampton) - View - PDF
Research Explorer (The University of Manchester) - View - PDF

Similar Works

Action	Title	Year	Authors
+	Ranking the importance of nuclear reactions for activation and transmutation events	2015	W. Arter J. Guy Morgan Samuel D. Relton Nicholas J. Higham
+ PDF Chat	CNUCTRAN: A program for computing final nuclide concentrations using a direct simulation approach	2024	K. A. Bala mohamed Omar John Y. H. Soon W. M. H. Wan
+	Data mining the EXFOR database using network theory	2013	John A. Hirdt David Brown
+ PDF Chat	EASY-II: a system for modelling of n, d, p, γ and α activation and transmutation processes	2014	Jean-Christophe Sublet J.W. Eastwood Guy Morgan A. J. Koning D. Rochman
+ PDF Chat	Probabilistic approach of solving burnup problems	2024	K. A. Bala M. Omar Kuofan Chin
+	Critical assessment of nuclear sensitivity metrics for the r-process	2017	Zachary Shand Rachid Ouyed Nico Koning I. Dillmann R. Krücken Prashanth Jaikumar
+	Critical assessment of nuclear sensitivity metrics for the r-process	2017	Zachary Shand Rachid Ouyed Nico Koning I. Dillmann R. Krücken Prashanth Jaikumar
+ PDF Chat	The r-process: recent progress and needs for nuclear data	2004	Yong-Zhong Qian
+ PDF Chat	Multilayer Network Analysis of Nuclear Reactions	2016	Liang Zhu Y. G. Chen Qu Dingding Han
+ PDF Chat	Crucial inputs to nucleosynthesis calculations	2007	T. Rauscher
+	Method of characteristics – A review with applications to science and nuclear engineering computation	2015	Matthew D. Eklund Miltiadis Alamaniotis Hermilo Hernández Tatjana Jevremović
+ PDF Chat	Overview and Perspectives in Nuclear Physics	2008	W. Weise
+	pynucastro 2.1: an update on the development of a python library for nuclear astrophysics	2023	Alexander Smith Clark Eric T. Johnson Zhi Chen Kiran Eiden M. Zingale Brendan Boyd Parker T. Johnson Luis Rangel DaCosta
+ PDF Chat	CNUCTRAN: A program for computing final nuclide concentrations using a direct simulation approach	2024	K. A. Bala M. Omar John Y. H. Soo Wan Mohamad Husni Wan Mokhtar
+	Propagation of nuclear data uncertainties for ELECTRA burn-up calculations	2013	Henrik Sjöstrand E. Alhassan Junfeng Duan Cecilia Gustavsson A. J. Koning S. Pomp D. Rochman Michael Österlund
+ PDF Chat	Cross-disciplinary Reactor-to-Repository Framework for Evaluating Spent Nuclear Fuel from Advanced Reactors	2024	Haruko Wainwright Chloe Christiaen Milos Atz John Sebastian Tchakerian Jiankai Yu Gavin Ridley Koroush Shirvan
+ PDF Chat	Modeling of Nuclear Waste Forms: State-of-the-Art and Perspectives	2020	Piotr M. Kowalski Steve Lange Guido Deissmann Mengli Sun Kristina O. Kvashnina Robert J. Baker Philip Kegler Gabriel L. Murphy Dirk Bosbach
+	Modeling charpy impact energy property changes using a bayesian method	1997	R. Moskovic P.L. Windle A. F. M. Smith
+ PDF Chat	Towards a More Complete and Accurate Experimental Nuclear Reaction Data Library (EXFOR): International Collaboration Between Nuclear Reaction Data Centres (NRDC)	2014	Naohiko Otuka E. Dupont V. Semkova B. Pritychenko A. I. Blokhin M. Aikawa S. Babykina M. Bossant G. Chen S. Dunaeva
+ PDF Chat	FAFNIR: Strategy and risk reduction in accelerator driven neutron sources for fusion materials irradiation data	2014	Elizabeth Surrey M. Porton A. Fernández-Caballero T. Davenne David M. Findlay Alan Letchford J. W. G. Thomason T.J. Marrow Steve Roberts Andrei Seryi

Works That Cite This (2)

Action	Title	Year	Authors
+ PDF Chat	Computing low‐rank approximations of the Fréchet derivative of a matrix function using Krylov subspace methods	2021	Peter Kandolf Antti Koskela Samuel D. Relton Marcel Schweitzer
+	Computing low-rank approximations of the Fr\'echet derivative of a matrix function using Krylov subspace methods	2020	Peter Kandolf Antti Koskela Samuel D. Relton Marcel Schweitzer

Works Cited by This (3)

Action	Title	Year	Authors
+ PDF Chat	Survey of sampling-based methods for uncertainty and sensitivity analysis	2006	J.C. Helton Jay Johnson Cedric Jean-Marie Sallaberry Curtis B. Storlie
+ PDF Chat	Computing the Action of the Matrix Exponential, with an Application to Exponential Integrators	2011	Awad H. Al-Mohy Nicholas J. Higham
+	A Comparative Review of Sensitivity and Uncertainty Analysis of Large-Scale Systems—II: Statistical Methods	2004	Dan Gabriel Cacuci Mihaela Ionescu‐Bujor