Environmental Engineering Reference
In-Depth Information
TABLE 3.2
Results.of.Simulations
IonBeam
Energy
(keV)
VacancyatMost
ProbablePoint
(×10
−4
)
MostProbablePoint
perD+Collision
(Å)
Layer
Graphite
5
10
20
32.5
38.0
39.4.
71
1,000
1,000
Ca
5
10
20
10.1
20.7
17.5
156
1,000
1,000
Ni
5
10
20
36.7
53.3
45.0
71
214
1000
Atomic lattice
Low
Energy
Nuclear
Reaction
Deuteron or
Proton
FIGURE 3.3
Coniguration.of.the.behavior.in.the.lattice.
three.layers.(graphite,.CA,.or.Ni).show.the.peak.values.that.will.make.the.
vacancies..It.is.strange.that.there.is.another.peak.in.the.edge.between.one.
of. three. layers. and. Pd. layers.. Following. this. phenomenon,. it. is. assumed.
the. lattice. of. the. layer. plays. a. major. role. in. the. peak. vacancy.. Figure 3.3.
shows.the.coniguration.for.the.reaction.of.LSNR..Figure 3.4.shows.the.sim-
pliied. proposed. package. of. the. power. cell,. where. the. vacuum. generator.
is. attached.. This. is. a. prototype. of. the. power. cell,. which. will. be. changed.
for.commercial.purposes..In.this.process,.the.proton-proton.chain.reaction.
is. proposed.. Namely,. the. reaction. in. Equation. (3.2). will. occur,. which. was.
introduced.by.Bethe.(1939).
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