INIS
boron
100%
neutron flux
100%
neutron activation analysis
100%
neutron capture therapy
100%
energy
66%
reaction rate
66%
patients
50%
cross sections
50%
neutrons
50%
boron 10
50%
neutron capture
50%
beams
33%
neutron spectra
33%
skull
33%
simulation
16%
performance
16%
surfaces
16%
information
16%
construction
16%
tissues
16%
tumors
16%
foils
16%
adjustments
16%
velocity
16%
kev range
16%
atoms
16%
irradiation
16%
probability
16%
neutron transport
16%
slowdown
16%
tumor cells
16%
triga type reactors
16%
least square fit
16%
neutron beams
16%
thermal neutrons
16%
moderators
16%
Keyphrases
Neutron Flux
100%
Neutron Activation Analysis
100%
Boron Neutron Capture Therapy
100%
Reaction Rate
80%
Neutron
40%
Neutron Spectrum
40%
Skull
40%
Neutron Capture Cross Section
40%
Measurement Results
20%
Neutron Transport Calculation
20%
Thermal Energy
20%
Reaction Products
20%
Espoo
20%
Requirement Set
20%
Tumor
20%
Tumor Cells
20%
Semi-empirical Methods
20%
Neutron Beam
20%
Thermal Neutron
20%
Activation Foils
20%
Neutron Energy
20%
Neutron Capture Reaction
20%
Activity Measurement
20%
Generalized Least Squares
20%
TRIGA Research Reactor
20%
Several Samples
20%
Adjustment Method
20%
Fast-flux
20%
Thermal Flux
20%
Flux Simulation
20%
Square Codes
20%
Group Energy
20%
Energy Structure
20%
Neutron Flux Characterization
20%
Engineering
Neutron Flux
100%
Energy Engineering
33%
Capture Cross Section
33%
Neutron Spectra
33%
Final Result
16%
Outer Surface
16%
Microscopic Cross Section
16%
Neutron Energy
16%
Neutron Velocity
16%
Nuclear Reactor
16%
Neutron Transport
16%
Neutron Beam
16%
Thermal Neutron
16%
Least Square
16%
Thermal Energy
16%
Physics
Flux (Rate)
100%
Absorption Cross Sections
33%
Neutron Transport
16%
Thermal Neutron
16%
Neutron Beam
16%
Nuclear Reactor
16%
Material Science
Boron
100%
Tumor
40%
Surface (Surface Science)
20%
Biochemistry, Genetics and Molecular Biology