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THEORY OF CORRELATIONS AND FLUCTUATIONS IN NEUTRON DISTRIBUTIONS

Abstract

Equations are derived for the first and second order densities for neutrons and alpha particles. The implications of the equations are examined by reducing them to their diffusion theory equivalents, and the one-speed equations are obtained. Results show that in cases where the singlet density can be approximated as spatially uniform, the same approximation may not apply to the doublet density. (D.C.W.)
Publication Date:
Jun 15, 1963
Product Type:
Conference
Report Number:
CONF-39-11; AED-Conf-63-060-1
Reference Number:
NSA-17-034984
Resource Relation:
Conference: 9. American Nuclear Society Annual Meeting, Salt Lake City, UT (United States) 17-19 Jun 1963
Subject:
PHYSICS; ALPHA PARTICLES; CONFERENCE; CONFIGURATION; DENSITY; DIFFERENTIAL EQUATIONS; DIFFUSION; DISTRIBUTION; NEUTRONS; USA; UTAH; VARIATIONS
Sponsoring Organizations:
National Science Foundation (United States)
OSTI ID:
4876027
Research Organizations:
Univ. of Michigan, Ann Arbor, MI (United States)
Country of Origin:
United States
Language:
English
Submitting Site:
DTIE
Size:
Pages: 10
Announcement Date:
Dec 31, 1963

Citation Formats

Osborn, R. K., and Yip, S. THEORY OF CORRELATIONS AND FLUCTUATIONS IN NEUTRON DISTRIBUTIONS. United States: N. p., 1963. Web.
Osborn, R. K., & Yip, S. THEORY OF CORRELATIONS AND FLUCTUATIONS IN NEUTRON DISTRIBUTIONS. United States.
Osborn, R. K., and Yip, S. 1963. "THEORY OF CORRELATIONS AND FLUCTUATIONS IN NEUTRON DISTRIBUTIONS." United States.
@misc{etde_4876027,
title = {THEORY OF CORRELATIONS AND FLUCTUATIONS IN NEUTRON DISTRIBUTIONS}
author = {Osborn, R. K., and Yip, S.}
abstractNote = {Equations are derived for the first and second order densities for neutrons and alpha particles. The implications of the equations are examined by reducing them to their diffusion theory equivalents, and the one-speed equations are obtained. Results show that in cases where the singlet density can be approximated as spatially uniform, the same approximation may not apply to the doublet density. (D.C.W.)}
place = {United States}
year = {1963}
month = {Jun}
}