lecture 1-the nature of radiation
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Lecture 1-The Nature of RadiationTRANSCRIPT
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The Nature of Radiation
January 10, 2001
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Learning Objectives
Know basic constituents of the atom Define and give an examples of:
Isotopes Nuclides Radionuclides Radioisotopes Radiations
Know major radiation interactions in matter
Become familiar with and use equations to describe radiation interactions
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Learning Objectives
List charged and uncharged particles Write the equation that describes how
uncharged particles are attenuated Describe/draw an image of how
uncharged particles penetrate into matter
Calculate the: Range of an alpha particle in air Range of a beta particle in a known
material Attenuation of a photon beam Attenuation of a neutron beam
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Basic Nuclear Particles
Neutron, mass = 1.008665 amu
Proton, mass = 1.007277 amu
Atom: consists of protons,neutrons & electrons
Electron, mass = 0.000549 amu
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Basic Nuclear Particles
Alpha (), mass = ~4 amu
Beta (-), mass = 0.000549 amu
Positron (+), mass = 0.000549 amu
Gamma ray, no mass
X ray, no mass
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Nuclear Terms Nucleons
Protons and neutrons Nuclide
Species of atom defined by Z and A 1H, 238U, 2H are all nuclides
Isotopes Nuclides of same element (Z),
different number of neutrons (N) 1H, 2H, 3H are isotopes of H
Isotones Nuclides with same number of
neutrons 206Pb and 204Hg
N
A
Z X
Mass number
= Z + N
Atomic number
Neutron
number
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Nuclear Terms, continued
Radionuclide Radioactive nuclide
Radioisotope Radioactive isotope
Radiation Particles or waves with
sufficient energy to interact with or cause ionization of the atoms with which they interact
N
A
Z X
Mass number
= Z + N
Atomic number
Neutron
number
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Classification of Nuclear Particles
alpha (), + 2 charge
beta (-), -1 charge
positron (+), + 1 charge
Proton, +1 charge
Electron, -1 charge
Charged Particles
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Classification of Nuclear Particles
Uncharged
Particle
s
Neutron
Gamma ray
X ray
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e -e - e -
e -
e -
e - e -
e -
e -
e -
e -
e -
e -e -
e -
e -
e -
e -
e -
e -
e -e -
e -
e +
alpha ()
beta (-)
positron (+)
ionization
ionization
Ionizationandannihilationradiation
annihilation radiation0.511 MeV
annihilation radiation0.511 MeV
Charged Particle Interactions
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fast neutron
thermal neutron
elastic scatteringof nuclei and production of recoil nuclei
diffusion Absorption with (n,) reaction
photon
recoil nuclei
recoil nuclei
recoil nuclei
e -
e -
e -
e -photons
Uncharged Particle Interactions
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Important Radiation Interactions in Matter Production of Bremsstrahlung Photon Interactions
Photoelectric Effect Compton Effect Pair Production Positron Annihilation
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e -
e -e -
Electrons are deflected and accelerated in theCoulomb field of the nucleus.
Bremsstrahlung Radiation
Accelerated electriccharges emit electromagnetic waves (X-rays)
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Photon Interactions - Photoelectric Effect
e -
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Photon Interactions - Compton Effect
e -
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Photon Interactions – Pair Production
e -e +
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Photon Interactions – Positron Annihilation
e -e +
e -e +
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Important Equations
Alpha Particle Range Beta Particle Range Proton Range Photon Absorption Neutron Absorption
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Alpha Particle Range
Where: R = range in cm of air at 1
atm and 15oC E = energy in MeV
Note…this is an empirically derived equation, the units don’t “work out”
2/3318.0 ER
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Sidebar: Types
of equations Dimensionally correct
Internally consistent May be physics based May include empirically derived
Example: Velocity (m/s) = distance (m) / time (t) Units “work out”
Examples Radiation attenuation equations Radioactive decay
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Empirically derived Experimental method of science
applied to the creation of equations. Hypotheses generated to test theory Data collected and analyzed. Patterns extracted to describe
observed behavior Units may not “work out”
Examples Many “rules of thumb” Range equations
Sidebar: Types
of equations
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Beta Particle Range
For particles 0.01<E<2.5 MeV Where
R = range expressed in mg/cm2
E = maximum energy in MeV
Note…this is also an empirically derived equation, the units don’t “work out”
EER ln0954.0265.1412
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Proton Range
Where Rp = range expressed in
meters of air E = energy in MeV (few MeV to
200 MeV)
Note…this is also an empirically derived equation, the units don’t “work out”
8.1
3.9
E
Rp
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The “one-size fits all” equation
teAA 0
xeII 0
teNN 0
Activity decay equation
Atom decay equation
Photon attenuation equation
And many more….
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Photon Absorption
Where I0 is the original exposure rate or
beam fluence or flux I is the attenuated exopsure rate,
fluence or flux is the linear absorption coefficeint
(cm-1) x is the thickness of the absorber e is the base of the natural logarithm
(2.718..)
xeII 0
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Neutron Absorption
Where I0 is the original neutron intensity I is the attenuated neutron intensity N is the number of atoms per cm3 in the
absorbing material is the cross section of the abosrber
(capture coefficient (cm2) x is the thickness of the absorber (cm) e is the base of the natural logarithm
(2.718..) is the macroscopic cross section of the
absorber
xNx eIeII 00
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Behavior of Exponential Functions
t, x, or Z
N0
N
Linear plot
t, x, or Z
ln (N0)
ln N
Semi-log plot
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The Chart of the Nuclides
Still available See Jean Robinson, NE Office
A portable resource Known elements
Stable and radioactive forms Periodic table Brief description of nuclear
properties Conversion tables!
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Chart of the Nuclides
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Chart Information
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Chart Information, cont’d
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Chart Information, cont’d
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Chart Information, cont’d
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Summary
Basic constituents of the atom Defined and give an examples of
nuclear terms Described major radiation
interactions in matter Listed equations to describe
radiation interactions Layout of the Chart of the
Nuclides