The Monte Carlo code MCNP-DSP was developed from the Los Alamos MCNP4a code to calculate the time and frequency response statistics obtained from subcritical measurements. The code can be used to simulate a variety of subcritical measurements including source-driven noise analysis, Rossi-{alpha}, pulsed source, passive frequency analysis, multiplicity, and Feynman variance measurements. This code can be used to validate Monte Carlo methods and cross section data sets with subcritical measurements and replaces the use of point kinetics models for interpreting subcritical measurements
The Los Alamos Radiation Transport Code System (LARTCS) consists of state-of-the-art Monte Carlo and...
Subcritical measurements have typically been used at critical experiment facilities as a means to mo...
In subcritical systems driven by an external neutron source, the experimental methods based on pulse...
The design of reactivity monitoring systems for accelerator-driven systems must be investigated to e...
This paper presents calculations of the {sup 252}Cf-source-driven noise analysis measurements for su...
MCNP{trademark} is a general purpose three-dimensional time-dependent neutron, photon, and electron ...
The differential operator perturbation technique has been incorporated into the Monte Carlo N-Partic...
The development of MCNP-DSP, which allows direct calculation of the measured time and frequency anal...
Careful assessment of the results of a calculation by the code itself can reduce mistakes in the pro...
The differential operator perturbation technique has been incorporated into the Monte Carlo N-Partic...
The differential operator perturbation capability in MCNP4B has been extended to automatically calcu...
Monte Carlo N-Particle (MCNP) is a Monte Carlo code package allowing coupled neutron, photon, and el...
Over the last few decades, users of the Monte Carlo radiation transport code MCNP have expressed the...
MCNP has stood so far as one of the main Monte Carlo radiation transport codes. Its use, as any othe...
Research was performed to develop an importance sampling procedure for a radiation source. The proce...
The Los Alamos Radiation Transport Code System (LARTCS) consists of state-of-the-art Monte Carlo and...
Subcritical measurements have typically been used at critical experiment facilities as a means to mo...
In subcritical systems driven by an external neutron source, the experimental methods based on pulse...
The design of reactivity monitoring systems for accelerator-driven systems must be investigated to e...
This paper presents calculations of the {sup 252}Cf-source-driven noise analysis measurements for su...
MCNP{trademark} is a general purpose three-dimensional time-dependent neutron, photon, and electron ...
The differential operator perturbation technique has been incorporated into the Monte Carlo N-Partic...
The development of MCNP-DSP, which allows direct calculation of the measured time and frequency anal...
Careful assessment of the results of a calculation by the code itself can reduce mistakes in the pro...
The differential operator perturbation technique has been incorporated into the Monte Carlo N-Partic...
The differential operator perturbation capability in MCNP4B has been extended to automatically calcu...
Monte Carlo N-Particle (MCNP) is a Monte Carlo code package allowing coupled neutron, photon, and el...
Over the last few decades, users of the Monte Carlo radiation transport code MCNP have expressed the...
MCNP has stood so far as one of the main Monte Carlo radiation transport codes. Its use, as any othe...
Research was performed to develop an importance sampling procedure for a radiation source. The proce...
The Los Alamos Radiation Transport Code System (LARTCS) consists of state-of-the-art Monte Carlo and...
Subcritical measurements have typically been used at critical experiment facilities as a means to mo...
In subcritical systems driven by an external neutron source, the experimental methods based on pulse...