I cited a library notebook the other day for a related question.

http://library.wolfram.com/infocenter/Conferences/325/

How to expand the arithematics of differential operators in mathematica

I'll crib some relevant code. I first mention (again) that I'm going to define and work with my own noncommutative operator, to avoid pattern matching headaches from built-in NonCommutativeMultiply. Also I will use a[...] instead of Subscript[a,...] for ease of ascii notation and cut-paste of Mathematica input/output.

We will classify certain "basic" entities as scalars or variables, the latter being the things that have commutation restrictions. I am not taking this nearly as far as one might go, and am only defining scalars to be fairly obvious "non-variables".

```
variableQ[x_] := MemberQ[{a, b, c, d}, Head[x]]
scalarQ[x_?NumericQ] := True
scalarQ[x_[a_]^n_. /; !variableQ[x[a]]] := True
scalarQ[_] := False
ncTimes[] := 1
ncTimes[a_] := a
ncTimes[a___, ncTimes[b___, c___], d___] := ncTimes[a, b, c, d]
ncTimes[a___, x_ + y_, b___] := ncTimes[a, x, b] + ncTimes[a, y, b]
ncTimes[a___, n_?scalarQ*c_, b___] := n*ncTimes[a, c, b]
ncTimes[a___, n_?scalarQ, b___] := n*ncTimes[a, b]
ncTimes[a___, x_[i_Integer]^m_., x_[i_]^n_., b___] /;
variableQ[x[i]] := ncTimes[a, x[i]^(m + n), b]
ncTimes[a___, x_[i_Integer]^m_., y_[j_Integer]^n_., b___] /;
variableQ[x[i]] && ! OrderedQ[{x, y}] := (* !!! *)
ncTimes[a, y[j]^n, x[i]^m, b]
```

I'll use your input form only slightly modified, so we'll convert ** expressions to use ncTimes instead.

```
Unprotect[NonCommutativeMultiply];
NonCommutativeMultiply[a___] := ncTimes[a]
```

Here is your example.

```
In[124]:=
a[-4] ** b[1] ** a[-4] ** b[-4] ** a[1] ** c[-4] ** c[1] ** c[5]
Out[124]= ncTimes[a[-4]^2, a[1], b[1], b[-4], c[-4], c[1], c[5]]
```

An advantage to this seemingly laborious method is you can readily define commutators. For example, we already have (implicitly) applied this one in formulating the rules above.

```
commutator[x_[a_], y_[b_]] /; x =!= y || !VariableQ[x[a] := 0
```

In general if you have commutator rules such as

```
ncTimes[a[j],a[i]] == ncTimes[a[i],a[i]]+(j-i)*a[i]
```

whenever j > i, then you could canonicalize, say by putting a[i] before a[j] in all expressions. For this you would need to modify the rule marked (*!!!*) to account for such commutators.

I should add that I have not in any sense fully tested the above code.

Daniel Lichtblau
Wolfram Research