Two-component representation of the neutron spectrum of fast research reactors

Sevast'yanov, V. D.; Koshelev, A. S.; Maslov, G. N.; Odintsov, Yu. M.

doi:10.1007/bf02418696

At Energy

1995

DOI: 10.1007/bf02418696

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Two-component representation of the neutron spectrum of fast research reactors

V. D. Sevast'yanov¹,

A. S. Koshelev²,

G. N. Maslov³

et al.

Abstract: An important element of the state system for guaranteeing the unity of neutron measurements performed on nuclearphysics setups is the reference neutron field. By definition [1, 2] this field consists of a region of the neutron field of the nuclear-physics setup that is fixed in space and is certified with respect to its constant spectral characteristics.The basic principle of supporting neutron measurements on nuclear-physics setups, based on the requirements of economy and taking into account the complexity … Show more

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Cited by 5 publications

(2 citation statements)

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“…To this end, it is suggested in [4][5][6] on the basis of a priori considerations concerning a typical reactor spectrum that a prescribed set of model functions be used.…”

mentioning

confidence: 99%

Activation Measurement of the Neutron Spectra of the BARS-5, IGRIK, and YAGUAR Reactors

et al. 2005

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A new approach is proposed and investigated for reconstructing the neutron spectra of reactors from activation measurements: the parameterization of the neutron spectrum is changed and the spectrum is represented in the form of a B spline. A Monte Carlo method is proposed for taking account of the distortions of the neutron spectrum by the measuring design of the detectors. The results of the activation measurements show that the approach developed can be used to reconstruct the neutron spectra of BARS-5, IGRIK, and YAGUAR reactors.The determination of neutron spectra ϕ(E) from activation measurements reduces to solving a system of integral equations of the form [1,2] (1)where Q i is the number of reactions on one nucleus of the main isotope of the ith indicator, measured with absolute rms error ∆Q i (1σ); E is the energy of the neutron; i is the number of the indicator; σ i (E) is the activation cross section of the ith indicator; N is the number of indicators used to measure the neutron field. Relation (1) is approximate, since it lacks the distortion which the measurement design of the activation detectors introduces into the neutron field. A more accurate relation is (2) where ϕ i (E) is the spectrum in the ith detector. The spectra ϕ i (E) are unknown and depend on the activation measurement scheme used.For further analysis, it is convenient to write system of equations (2) in the form (3) where S i (E) = ϕ i (E)/ϕ(E) are correction functions which take account of the distorting effect of the measurement construction. Calculating the spectra ϕ i M (E), ϕ M (E) by the Monte Carlo method, taking account, to the maximum extent possible, of the design of the reactor setup and the measurement scheme, and assuming the average-group values of the functions S i (E) to be Q ES E E d E i N i i i = = ∞ ∫ σ ϕ ( ) ( ) ( ) , ,..., , 0 1 Q E E d E i N i i i = = ∞ ∫ σ ϕ ( ) ( ) , ,..., , 0 1 Q E E d E i N i i = = ∞ ∫ σ ϕ ( ) ( ) , ,..., , 0 1

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“…To this end, it is suggested in [4][5][6] on the basis of a priori considerations concerning a typical reactor spectrum that a prescribed set of model functions be used.…”

mentioning

confidence: 99%

Activation Measurement of the Neutron Spectra of the BARS-5, IGRIK, and YAGUAR Reactors

et al. 2005

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show abstract

“…Moreover, it is proposed in [7] that a two-component representation of the neutron spectrum as a combination of a Maxwell spectrum (for the fission neutrons) and the spectrum for inelastically scattered neutrons with a small (only four) number of unknown parameters α 1 , α 2 , a 1 , and a 2 be used in the in-core regions of reactors with a metal core. For completeness, we also note that the function [8] is a good fit to the neutron spectrum of a californium source, used as a standard in many countries.…”

mentioning

confidence: 99%

N-spline reconstruction of neutron spectra on the basis of activation measurements

Islamgulov

Lartsev

2008

At Energy

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A new approach to reconstructing the neutron spectra of reactor facilities on the basis of activation measurements is proposed and investigated. A new parameterization of a neutron spectrum is introduced; this representation is in the form of a special "neutron" spline. A generalized algorithm for minimizing the directed deviation is used for the reconstruction. To analyze the possibilities of the approach developed, the spectra of the BARS-5, IGRIK, and YaGUAR reactor facilities are reconstructed on the basis of activation measurements. The reconstructed spectra agree well with previous results.The determination of neutron spectra ϕ(E) on the basis of activation measurements ordinarily reduces to solving a system of integral equations of the form [1,2] (1)where Q i is the number of reactions on a nucleus of the main isotope of the ith indicator, measured with absolute standard error ∆Q i (1σ); E is the neutron energy; σ i (E) is the activation cross section of the ith indicator; i is the number of the indicator; and N is the number of indicators used in the measurements. The existence of a solution of the (1) problem is guaranteed by its physical content, but it is well known that it is an improperly posed problem [1-3]. The many methods existing for finding a solution differ by the form and method of introduction of a priori information. Thus, together with the fact that the solution sought must be positive, the requirements that ϕ(E) be smooth and close to a certain trial function ϕ 0 (E), and so forth are often imposed [1][2][3][4].We note that a great deal of significance has always been attached at the All-Russia Research Institute of Theoretical Physics to the choice of the initial approximation for the neutron spectrum ϕ 0 (E). For this, it was calculated by the Monte Carlo method for each specific case of measurement of a neutron spectrum. A suitable choice of ϕ 0 (E) is especially important in the energy range 10 keV ≤ E ≤ 0.6 MeV; this is due mainly to the inadequacy of the information which sets of activation indicators provide in this region of the spectrum.A group representation of the spectrum ϕ(E) is often used to solve the (1) problem, and the problem reduces to solving a system of linear algebraic equations. Since the cross-sections of many activation reactions are of a resonance character, the number of groups must be large so that the quadrature error due to the transition to a system of equations would be small compared with the measurement errors ∆Q. As a result, the uncertainty (or degeneracy) of the system is large. It has been proposed on the basis of a priori considerations concerning the typical reactor spectrum that a prescribed set of model functions or a piecewise representation of the neutron spectrum be used to decrease the number of parameters sought [4,5]. For Q E Ed E i N i i = = ∞ ∫ σ ϕ ( ) ( ) , ,..., , 0 1

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Representation of the fission neutron spectrum of235U,239Pu, and252Cf and the reactor spectrum as a superposition of five inelastic scattering functions

Sevast'yanov¹

2000

At Energy

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Two-component representation of the neutron spectrum of fast research reactors

Cited by 5 publications

References 4 publications

Activation Measurement of the Neutron Spectra of the BARS-5, IGRIK, and YAGUAR Reactors

Activation Measurement of the Neutron Spectra of the BARS-5, IGRIK, and YAGUAR Reactors

N-spline reconstruction of neutron spectra on the basis of activation measurements

Representation of the fission neutron spectrum of235U,239Pu, and252Cf and the reactor spectrum as a superposition of five inelastic scattering functions

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