Add to ORKGThe prompt removal lifetime algorithm used in the latest version of MCNP was modified to conform with the neutron-balance definitions described by Spriggs et al. In accordance with the neutron-balance theory, the non-adjoint-weighted removal lifetime is given by where {Phi} is the angular neutron flux, v is the neutron velocity, {Sigma}{sub a} is the macroscopic absorption cross section, E is neutron energy, {Omega} is angle, and r is a spatial vector. The numerator in this expression represents the total neutron population in the system, N, and the denominator represents the total loss rate due to leakage and absorption
The neutron lifetime has been measured by counting the neutrons remaining in a fluid-walled bottle a...
The precise value of the mean neutron lifetime, τ_n, plays an important role in nuclear and particle...
We present a new value for the neutron lifetime of 878.5 +- 0.7 stat. +- 0.3 syst. This result diffe...
MCNP4B was released in early 1997. In this new version, several major changes were made to the under...
We calculate the median as well as weighted mean central estimates for the neutron lifetime from a s...
When performing k-eigenvalue solutions with KENO-V.a, two different prompt neutron lifetimes are est...
Historically, the term neutron lifetime has been used in the literature to describe a wide variety o...
In this paper we review the role of the neutron lifetime and discuss the present status of measureme...
Neutrons can be stable only when bound to the nucleus of an atom through the strong force. For every...
Free neutron decay is a fundamental process in particle and nuclear physics. It is the prototype for...
It is known that a free neutron decays into a proton, an electron, and an anti-neutrino. Interesting...
The prompt neutron lifetime is an important input parameter to the solution of the point reactor kin...
The manganese bath method for measuring the neutron emission rate of radionuclide sources requires c...
The article provides a theoretical substantiation for a significant increase in the level of accurac...
The past two decades have yielded several new measurements and reanalyses of older measurements of t...
The neutron lifetime has been measured by counting the neutrons remaining in a fluid-walled bottle a...
The precise value of the mean neutron lifetime, τ_n, plays an important role in nuclear and particle...
We present a new value for the neutron lifetime of 878.5 +- 0.7 stat. +- 0.3 syst. This result diffe...
MCNP4B was released in early 1997. In this new version, several major changes were made to the under...
We calculate the median as well as weighted mean central estimates for the neutron lifetime from a s...
When performing k-eigenvalue solutions with KENO-V.a, two different prompt neutron lifetimes are est...
Historically, the term neutron lifetime has been used in the literature to describe a wide variety o...
In this paper we review the role of the neutron lifetime and discuss the present status of measureme...
Neutrons can be stable only when bound to the nucleus of an atom through the strong force. For every...
Free neutron decay is a fundamental process in particle and nuclear physics. It is the prototype for...
It is known that a free neutron decays into a proton, an electron, and an anti-neutrino. Interesting...
The prompt neutron lifetime is an important input parameter to the solution of the point reactor kin...
The manganese bath method for measuring the neutron emission rate of radionuclide sources requires c...
The article provides a theoretical substantiation for a significant increase in the level of accurac...
The past two decades have yielded several new measurements and reanalyses of older measurements of t...
The neutron lifetime has been measured by counting the neutrons remaining in a fluid-walled bottle a...
The precise value of the mean neutron lifetime, τ_n, plays an important role in nuclear and particle...
We present a new value for the neutron lifetime of 878.5 +- 0.7 stat. +- 0.3 syst. This result diffe...