Table 3.6:
A single isolated A will transmute an F into an EBar. However, if a second A arrives before the reaction is complete, the results could be quite different. In any event, once the F has changed, any subsequent collider would have to deal with the EBar.
align
monomer
dimer
trimer
tetramer
tetrad
top
EBar
C1 + 3 B
C1 + 2B
C1 + B
C3
hhi
EBar
EBar + A
E
D1
C3
hi
EBar
EBar + A
E
E1 + A
C3
mid
EBar
E2
E
D1
D1
lo
EBar
EBar + A
E
BBar + F + 2B
D1
llo
EBar
EBar + A
C1 + 2B
C1+ B
C3
Figure 3.11:
An A glider can be absorbed by an F with any alignment to produce an EBar glider.
