q-derivative

In mathematics, in the area of combinatorics, the q-derivative is a q-analog of the ordinary derivative.

[edit] Definition

The q-derivative of a function f(x) is defined as

$\left(\frac{d}{dx}\right)_q f(x)=\frac{f(qx)-f(x)}{qx-x}$

It is also often written as $D q f (x)$ . The q-derivative is also known as the Jackson derivative.

Q-differentiation resembles ordinary differentiation, with curious differences. For example, the q-derivative of the monomial is:

$\left(\frac{d}{dz}\right)_q z^n = \frac{1-q^n}{1-q} z^{n-1} = [n]_q z^{n-1}$

where $[n] q$ is the q-bracket of n. Note that $\lim_{q\to 1}[n]_q = n$ so the ordinary derivative is regained in this limit.

The n 'th derivative of a function may be given as

$(D^n_q f)(0)= \frac{f^{(n)}(0)}{n!} \frac{(q;q)_n}{(1-q)^n}= \frac{f^{(n)}(0)}{n!} [n]_q!$

provided that the ordinary n 'th derivative of f exists at x=0. Here, $(q; q) n$ is the q-Pochhammer symbol, and $[n] q!$ is the q-factorial.

Victor Kac, Pokman Cheung, Quantum Calculus, Universitext, Springer-Verlag, 2002. ISBN 0-387-95341-8
J. Koekoek, R. Koekoek, A note on the q-derivative operator, (1999) ArXiv math/9908140