PaVeOrder[expr]
orders the arguments of PaVe functions
in expr in a standard way.
PaVeOrder[expr, PaVeOrderList -> { {..., s, u, ...}, {... m1^2, m2^2, ...}, ...}]
orders the arguments of PaVe
functions in expr
according to the specified ordering lists. The lists may contain only a
subsequence of the kinematic variables.
PaVeOrder
has knows about symmetries in the arguments of
PaVe functions with up to 6 legs.
Available symmetry relations are saved here
FileBaseName /@ FileNames["*.sym", FileNameJoin[{$FeynCalcDirectory, "Tables",
"PaVeSymmetries"}]]
\{\text{ScalarFunctions},\text{TensorBFunctions},\text{TensorCFunctions},\text{TensorDFunctions},\text{TensorEFunctions},\text{TensorFFunctions}\}
For the time being, these tables contain relations for B-functions up
to rank 10, C-functions up to rank 9, D-functions up to rank 8,
E-functions (5-point functions) up to rank 7 and F-functions (6-point
functions) up to rank 4. If needed, relations for more legs and higher
tensor ranks can be calculated using FeynCalc and saved to
PaVeSymmetries using template codes provided inside *.sym
files.
ClearAll[t, s]
Use PaVeOrder to change the ordering of arguments in a
D0
function
= D0[me2, me2, mw2, mw2, t, s, me2, 0, me2, 0] ex
\text{D}_0(\text{me2},\text{me2},\text{mw2},\text{mw2},t,s,\text{me2},0,\text{me2},0)
[ex, PaVeOrderList -> {me2, me2, 0, 0}] PaVeOrder
\text{D}_0(\text{me2},s,\text{mw2},t,\text{mw2},\text{me2},\text{me2},0,0,\text{me2})
Different orderings are possible
[D0[me2, me2, mw2, mw2, t, s, me2, 0, me2, 0], PaVeOrderList -> {0, 0, me2, me2}] PaVeOrder
\text{D}_0(s,\text{me2},t,\text{mw2},\text{mw2},\text{me2},0,0,\text{me2},\text{me2})
When applying the function to an amplitude containing multiple PaVe functions, one can specify a list of possible orderings
= D0[a, b, c, d, e, f, m12, m22, m32, m42] + D0[me2, me2, mw2, mw2, t, s, me2, 0, me2, 0] ex
\text{D}_0(a,b,c,d,e,f,\text{m12},\text{m22},\text{m32},\text{m42})+\text{D}_0(\text{me2},\text{me2},\text{mw2},\text{mw2},t,s,\text{me2},0,\text{me2},0)
[ex, PaVeOrderList -> {{me2, me2, 0, 0}, {f, e}}] PaVeOrder
\text{D}_0(a,b,c,d,e,f,\text{m12},\text{m22},\text{m32},\text{m42})+\text{D}_0(\text{me2},s,\text{mw2},t,\text{mw2},\text{me2},\text{me2},0,0,\text{me2})
PaVeOrder can be useful to show that a particular linear combination
of PaVe
functions yields zero
= PaVe[0, 0, {p14, p30, p24, p13, p20, p40, p34, p23, p12, p10}, {m4, m3, m2,m1, m0},
diff -> False] - PaVe[0, 0, {p10, p13, p12, p40, p30, p34, p20, p24, p14, p23},
PaVeAutoOrder {m3, m0, m1, m4, m2}, PaVeAutoOrder -> False]
\text{E}_{00}(\text{p14},\text{p30},\text{p24},\text{p13},\text{p20},\text{p40},\text{p34},\text{p23},\text{p12},\text{p10},\text{m4},\text{m3},\text{m2},\text{m1},\text{m0})-\text{E}_{00}(\text{p10},\text{p13},\text{p12},\text{p40},\text{p30},\text{p34},\text{p20},\text{p24},\text{p14},\text{p23},\text{m3},\text{m0},\text{m1},\text{m4},\text{m2})
// PaVeOrder diff
0
In most cases, such simplifications require not only 1-to-1 relations
but also linear relations between PaVe
functions. For
example, here we have a 1-to-1 relation between C_1 and C_2
[2, {p10, p12, p20}, {m1^2, m2^2, m3^2}, PaVeAutoOrder -> False]
PaVe
[%] PaVeOrder
\text{C}_2\left(\text{p10},\text{p12},\text{p20},\text{m1}^2,\text{m2}^2,\text{m3}^2\right)
\text{C}_1\left(\text{p12},\text{p20},\text{p10},\text{m2}^2,\text{m3}^2,\text{m1}^2\right)
It seems that PaVeOrder
cannot rewrite C_1 in such a way, that the mass arguments
appear as m_2^2, m_1^2, m_3^2
= PaVe[1, {p10, p12, p20}, {m1^2, m2^2, m3^2}, PaVeAutoOrder -> False] ex
\text{C}_1\left(\text{p10},\text{p12},\text{p20},\text{m1}^2,\text{m2}^2,\text{m3}^2\right)
[ex, PaVeOrderList -> {m2, m1, m3}] PaVeOrder
\text{C}_1\left(\text{p10},\text{p12},\text{p20},\text{m1}^2,\text{m2}^2,\text{m3}^2\right)
In fact, such a rewriting is possible, but it involves a linear
relation between multiple PaVe
functions. To avoid an
accidental expression swell, by default PaVeOrder
uses only
1-to-1 relations. Setting the option Sum
to
True
allows the routine to return linear relations too
[ex, PaVeOrderList -> {m2, m1, m3}, Sum -> True] PaVeOrder
-\text{C}_0\left(\text{p10},\text{p20},\text{p12},\text{m2}^2,\text{m1}^2,\text{m3}^2\right)-\text{C}_1\left(\text{p10},\text{p20},\text{p12},\text{m2}^2,\text{m1}^2,\text{m3}^2\right)-\text{C}_2\left(\text{p10},\text{p20},\text{p12},\text{m2}^2,\text{m1}^2,\text{m3}^2\right)
When trying to minimize the number of PaVe
functions in
the expression, one often has to try different orderings first
= (C0[0, SP[p, p], SP[p, p], 0, 0, 0] + 2 PaVe[1, {0, SP[p, p], SP[p, p]}, {0, 0, 0}] +
diff [1, {SP[p, p], SP[p, p], 0}, {0, 0, 0}]) PaVe
\text{C}_0\left(0,\overline{p}^2,\overline{p}^2,0,0,0\right)+2 \;\text{C}_1\left(0,\overline{p}^2,\overline{p}^2,0,0,0\right)+\text{C}_1\left(\overline{p}^2,\overline{p}^2,0,0,0,0\right)
This ordering doesn’t look very helpful
[diff, PaVeOrderList -> {0, SP[p, p], SP[p, p]}, Sum -> True]
PaVeOrder
% // PaVeOrder
\text{C}_0\left(0,\overline{p}^2,\overline{p}^2,0,0,0\right)+2 \;\text{C}_1\left(0,\overline{p}^2,\overline{p}^2,0,0,0\right)+\text{C}_2\left(0,\overline{p}^2,\overline{p}^2,0,0,0\right)
\text{C}_0\left(0,\overline{p}^2,\overline{p}^2,0,0,0\right)+2 \;\text{C}_1\left(0,\overline{p}^2,\overline{p}^2,0,0,0\right)+\text{C}_1\left(\overline{p}^2,\overline{p}^2,0,0,0,0\right)
But this one does the job
[diff, PaVeOrderList -> {SP[p, p], 0, SP[p, p]}, Sum -> True]
PaVeOrder
% // PaVeOrder
\text{C}_1\left(\overline{p}^2,0,\overline{p}^2,0,0,0\right)-\text{C}_2\left(\overline{p}^2,0,\overline{p}^2,0,0,0\right)
0
Here are few simpler cases
= PaVe[0, {0}, {m2^2, m3^2}] + PaVe[1, {0}, {m3^2, m2^2}] + PaVe[1, {0}, {m2^2, m3^2}] diff
\text{B}_0\left(0,\text{m2}^2,\text{m3}^2\right)+\text{B}_1\left(0,\text{m2}^2,\text{m3}^2\right)+\text{B}_1\left(0,\text{m3}^2,\text{m2}^2\right)
[diff, PaVeOrderList -> {m2, m3}, Sum -> True] PaVeOrder
0
= PaVe[0, {0}, {m2^2, m3^2}] + 2 PaVe[1, {0}, {m3^2, m2^2}] - PaVe[1, 1, {0}, {m2^2, m3^2}] +
diff [1, 1, {0}, {m3^2, m2^2}] PaVe
\text{B}_0\left(0,\text{m2}^2,\text{m3}^2\right)+2 \;\text{B}_1\left(0,\text{m3}^2,\text{m2}^2\right)-\text{B}_{11}\left(0,\text{m2}^2,\text{m3}^2\right)+\text{B}_{11}\left(0,\text{m3}^2,\text{m2}^2\right)
[diff, Sum -> True, PaVeOrderList -> {m3, m2}] PaVeOrder
0
= PaVe[0, {0, 0, 0}, {m2^2, m3^2, m4^2}] + 2 PaVe[1, {0, 0, 0}, {m2^2, m3^2, m4^2}] +
diff 2 PaVe[1, {0, 0, 0}, {m3^2, m2^2, m4^2}] + PaVe[1, 1, {0, 0, 0}, {m2^2, m3^2, m4^2}] -
[1, 1, {0, 0, 0}, {m2^2, m4^2, m3^2}] + PaVe[1, 1, {0, 0, 0}, {m3^2, m2^2, m4^2}] +
PaVe2 PaVe[1, 2, {0, 0, 0}, {m4^2, m2^2, m3^2}]
\text{C}_0\left(0,0,0,\text{m2}^2,\text{m3}^2,\text{m4}^2\right)+2 \;\text{C}_1\left(0,0,0,\text{m2}^2,\text{m3}^2,\text{m4}^2\right)+2 \;\text{C}_1\left(0,0,0,\text{m3}^2,\text{m2}^2,\text{m4}^2\right)+\text{C}_{11}\left(0,0,0,\text{m2}^2,\text{m3}^2,\text{m4}^2\right)-\text{C}_{11}\left(0,0,0,\text{m2}^2,\text{m4}^2,\text{m3}^2\right)+\text{C}_{11}\left(0,0,0,\text{m3}^2,\text{m2}^2,\text{m4}^2\right)+2 \;\text{C}_{12}\left(0,0,0,\text{m4}^2,\text{m2}^2,\text{m3}^2\right)
[diff, Sum -> True, PaVeOrderList -> {m3, m2}] PaVeOrder
0