FCLoopSelectTopology[int, topos]
selects the topology
that matches the GLI
int
from a list of
topologies topos
.
The first argument can be also a list, in which case the function will return a list of matching topologies.
= {FCTopology[topo2, {FAD[{p1, m}], FAD[{p1 - q, m}]}, {p1}, {q}, {}, {}],
topos [topo1, {FAD[{p1, m}], FAD[{p1 - q, m}]}, {p1}, {q}, {SPD[q] -> M^2,SPD[q2] -> M2^2}, {}]} FCTopology
\left\{\text{FCTopology}\left(\text{topo2},\left\{\frac{1}{\text{p1}^2-m^2},\frac{1}{(\text{p1}-q)^2-m^2}\right\},\{\text{p1}\},\{q\},\{\},\{\}\right),\text{FCTopology}\left(\text{topo1},\left\{\frac{1}{\text{p1}^2-m^2},\frac{1}{(\text{p1}-q)^2-m^2}\right\},\{\text{p1}\},\{q\},\left\{q^2\to M^2,\text{q2}^2\to \;\text{M2}^2\right\},\{\}\right)\right\}
[{GLI[topo2, {2, 2}]}, topos] FCLoopSelectTopology
\left\{\text{FCTopology}\left(\text{topo2},\left\{\frac{1}{\text{p1}^2-m^2},\frac{1}{(\text{p1}-q)^2-m^2}\right\},\{\text{p1}\},\{q\},\{\},\{\}\right)\right\}
= {FCTopology[prop2Ltopo13311, {SFAD[{{I*p1, 0}, {-m1^2, -1}, 1}],
topos [{{I*(p1 + q1), 0}, {-m3^2, -1}, 1}], SFAD[{{I*p3, 0}, {-m3^2, -1}, 1}],
SFAD[{{I*(p3 + q1), 0}, {-m1^2, -1}, 1}], SFAD[{{I*(p1 - p3), 0},
SFAD{-m1^2, -1}, 1}]}, {p1, p3}, {q1}, {SPD[q1, q1] -> m1^2}, {}]}
\left\{\text{FCTopology}\left(\text{prop2Ltopo13311},\left\{\frac{1}{(-\text{p1}^2+\text{m1}^2-i \eta )},\frac{1}{(-(\text{p1}+\text{q1})^2+\text{m3}^2-i \eta )},\frac{1}{(-\text{p3}^2+\text{m3}^2-i \eta )},\frac{1}{(-(\text{p3}+\text{q1})^2+\text{m1}^2-i \eta )},\frac{1}{(-(\text{p1}-\text{p3})^2+\text{m1}^2-i \eta )}\right\},\{\text{p1},\text{p3}\},\{\text{q1}\},\left\{\text{q1}^2\to \;\text{m1}^2\right\},\{\}\right)\right\}
Products of GLI
s in the first argument are also
supported.
[{GLI[prop2Ltopo13311, {1, 0, 0, 0, 0}]^2,
FCLoopSelectTopology[prop2Ltopo13311, {1, 1, 1, 1, 1}]}, topos, FCE -> True] GLI
\left\{\text{FCTopology}\left(\text{prop2Ltopo13311},\left\{\frac{1}{(-\text{p1}^2+\text{m1}^2-i \eta )},\frac{1}{(-(\text{p1}+\text{q1})^2+\text{m3}^2-i \eta )},\frac{1}{(-\text{p3}^2+\text{m3}^2-i \eta )},\frac{1}{(-(\text{p3}+\text{q1})^2+\text{m1}^2-i \eta )},\frac{1}{(-(\text{p1}-\text{p3})^2+\text{m1}^2-i \eta )}\right\},\{\text{p1},\text{p3}\},\{\text{q1}\},\left\{\text{q1}^2\to \;\text{m1}^2\right\},\{\}\right)\right\}