====== Tx ======
###
The x component of $\vec{T}$ is defined as:
\begin{equation}
T_x = S_x - 3 x\left(x S_x + y S_y + z S_z\right)/r^2.
\end{equation}
The equivalent operator in Quanty is created by:
OppTx = NewOperator("Tx", NF, IndexUp, IndexDn)
###
###
The operator can alternatively be created with the following function:
function Tx(indexup, indexdn, NF)
if #indexup ~= #indexdn then
error("Length of index up must be equal to length of index dn and equal to 2l+1 in Tx")
end
local l=(#indexup-1)/2
if not IntegerQ(l) then
error("Length of index must be equal to 2l+1 in Tx")
end
local function Sx(m1,m2)
return NewOperator("Number",NF,{indexup[m1+l+1],indexdn[m1+l+1]},
{indexdn[m2+l+1],indexup[m2+l+1]},{1/2,1/2})
end
local function Sy(m1,m2)
return NewOperator("Number",NF,{indexup[m1+l+1],indexdn[m1+l+1]},
{indexdn[m2+l+1],indexup[m2+l+1]},{-I/2,I/2})
end
local function Sz(m1,m2)
return NewOperator("Number",NF,{indexup[m1+l+1],indexdn[m1+l+1]},
{indexup[m2+l+1],indexdn[m2+l+1]},{1/2,-1/2})
end
local opp = 0 * NewOperator("Number",NF,0,0)
for m1 = -l,l do
for m2 = -l,l do
opp = opp -2 * ( sqrt(3/8)*SlaterCoefficientC({l,m1},{2,-2},{l,m2})
+sqrt(3/8)*SlaterCoefficientC({l,m1},{2, 2},{l,m2})
-sqrt(2/8)*SlaterCoefficientC({l,m1},{2, 0},{l,m2})
)*Sx(m1,m2)
-I * ( sqrt(3/2)*SlaterCoefficientC({l,m1},{2,-2},{l,m2})
-sqrt(3/2)*SlaterCoefficientC({l,m1},{2, 2},{l,m2})
)*Sy(m1,m2)
- ( sqrt(3/2)*SlaterCoefficientC({l,m1},{2,-1},{l,m2})
-sqrt(3/2)*SlaterCoefficientC({l,m1},{2, 1},{l,m2})
)*Sz(m1,m2)
end
end
opp.Chop()
opp.Name="Tx"
return opp
end
###
===== Table of contents =====
{{indexmenu>.#1}}