Electron transport using the discrete ordinates method
The purpose of this study is to develop an electron transport model which can be used with the standard ANISN computer code. Two major developments in this study may be outlined as: (i) the application of the condensed random walk concept of the ETRAN family of computer codes into the discrete ordinates (ANISN) format; (ii) and the formulation of inelastic cross-sections by the collisonal average energy loss model. The inelastic cross-sections are employed in a continuous slowing down mode in the ANISN format, so the general model is referred to as ANISN-CSDM. The characteristics of ANISN-CSDM are: the application of an elastic multiple scattering approximation to replace detailed (single-scatter) small interval calculations. This approximation permits more efficient approximate calculations and makes the deep-penetration radiation transport analysis possible within reasonable computer storage and time limitations. A single-inelastic scatter and an elastic scatter are allowed per energy step by defining a model energy loss and equating this to an energy group width, therby specifying a mechanism for continuous slowing down of the primary particle. The average energy loss of the primary particle does not include small energy transfer collisions whose magnitude is less than a chosen eta value. Their energy deposition is included in the overall inelastic cross-sections. The types of problems which have been solved are: The scalar flux solutions in thin aluminum slabs, energy/angle transmission through relatively thick aluminum, gold and water slabs; and energy deposition in thick aluminum and in water slabs whose thickness is greater than the range of the incident particle.
- Research Organization:
- Oklahoma Univ., Norman (USA)
- OSTI ID:
- 6555352
- Resource Relation:
- Other Information: Thesis (Ph. D.)
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
99 GENERAL AND MISCELLANEOUS//MATHEMATICS, COMPUTING, AND INFORMATION SCIENCE
CHARGED-PARTICLE TRANSPORT
COMPUTER CODES
A CODES
ELECTRONS
ENERGY LOSSES
ALUMINIUM
CROSS SECTIONS
DISCRETE ORDINATE METHOD
E CODES
GOLD
INELASTIC SCATTERING
WATER
ELEMENTARY PARTICLES
ELEMENTS
FERMIONS
HYDROGEN COMPOUNDS
LEPTONS
LOSSES
METALS
OXYGEN COMPOUNDS
RADIATION TRANSPORT
SCATTERING
TRANSITION ELEMENTS
654001* - Radiation & Shielding Physics- Radiation Physics
Shielding Calculations & Experiments
990200 - Mathematics & Computers