NEEP 541 – Defects Fall 2003 Jake Blanchard. Outline Irradiation Induced Defects Definitions...
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Transcript of NEEP 541 – Defects Fall 2003 Jake Blanchard. Outline Irradiation Induced Defects Definitions...
![Page 1: NEEP 541 – Defects Fall 2003 Jake Blanchard. Outline Irradiation Induced Defects Definitions Particles Cascades Depleted zones Thermal Spikes.](https://reader035.fdocuments.us/reader035/viewer/2022080914/56649d0a5503460f949dc46b/html5/thumbnails/1.jpg)
NEEP 541 – Defects
Fall 2003Jake Blanchard
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Outline Irradiation Induced Defects
Definitions Particles Cascades Depleted zones Thermal Spikes
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Definitions PKA=atom knocked from its lattice
site by bombarding particle Formation of PKA produces 1
vacancy and one interstitial (Frenkel pair)
Minimal energy to create PKA is displacement energy - Ed
Displacement energy is 20-50 eV (depends on crystal direction)
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Bombarding particles To create PKA, neutrons need > 1
keV, electrons > 1 MeV, ions > 100 eV Energy transfer leads to local
temperature rise Some of energy lost to inelastic
collisions and to electrons Look at separately at processes
associated with each of these particles
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Cascades Collection of Frenkel pairs from
single PKA with E>10s of eV is called a collision cascade
Time frame is <0.1 ps When PKA energy is sufficiently
low, the distance between collisions drops and becomes comparable to interatomic spacing
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Depleted Zones When PKA energy is low, the
deposited energy is concentrated over small volume (10,000 atoms or so)
Irregular vacancy clusters are formed, surrounded by interstitials
This is a “depleted zone” Two models exist: displacement
spike and thermal spike
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Cascade
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Depleted Zone
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Displacement Spike
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Displacement Spike During the cascade dynamic,
collective atom motion occurs Relocation is random Focusing and channeling are key
elements (transfer over large distances)
Atoms transferred ~ 20 nm, so recombination is unlikely
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Thermal Spike Energy transfer below displacement
energy heats lattice Heat pulse is “thermal spike” Local temperature can exceed
Tmelt Heat is gradually dissipated through
electron collisions as atoms vibrate
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Thermal Spike Evolution A spike follows a cascade It is a local region where atoms are in
“violent motion” Intensity of motion decreases as spike
cools (10 ps or so) Spike contains central region where
cascade effects are converted to heat Interstitials are injected into
surrounding lattice by focusing, channeling, etc.
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Thermal Spike Evolution (cont.) In core of spike, “liquid drop
forms” then solidifies Process is rapid solidification of
undercooled liquid core Void is created in center Hence, we get a depleted zone
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Cascade Development Ballistic effects occur over ~10 ps
(primary damage state) Other processes are diffusional and
thus slower (~10 ns) Latter changes microstructure and
leads to property changes