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Latest revision as of 07:58, 3 December 2013

There are a number of notational systems for the Jacobi theta functions. The notations given in the Wikipedia article define the original function

\vartheta _{00}(z;\tau )=\sum _{n=-\infty }^{\infty }\exp(\pi in^{2}\tau +2\pi inz)

which is equivalent to

\vartheta _{00}(z,q)=\sum _{n=-\infty }^{\infty }q^{n^{2}}\exp(2\pi inz)

However, a similar notation is defined somewhat differently in Whittaker and Watson, p. 487:

\vartheta _{0,0}(x)=\sum _{n=-\infty }^{\infty }q^{n^{2}}\exp(2\pi inx/a)

This notation is attributed to "Hermite, H.J.S. Smith and some other mathematicians". They also define

\vartheta _{1,1}(x)=\sum _{n=-\infty }^{\infty }(-1)^{n}q^{(n+1/2)^{2}}\exp(\pi i(2n+1)x/a)

This is a factor of i off from the definition of $\vartheta _{11}$ as defined in the Wikipedia article. These definitions can be made at least proportional by x = za, but other definitions cannot. Whittaker and Watson, Abramowitz and Stegun, and Gradshteyn and Ryzhik all follow Tannery and Molk, in which

\vartheta _{1}(z)=-i\sum _{n=-\infty }^{\infty }(-1)^{n}q^{(n+1/2)^{2}}\exp((2n+1)iz)

\vartheta _{2}(z)=\sum _{n=-\infty }^{\infty }q^{(n+1/2)^{2}}\exp((2n+1)iz)

\vartheta _{3}(z)=\sum _{n=-\infty }^{\infty }q^{n^{2}}\exp(2niz)

\vartheta _{4}(z)=\sum _{n=-\infty }^{\infty }(-1)^{n}q^{n^{2}}\exp(2niz)

Note that there is no factor of π in the argument as in the previous definitions.

Whittaker and Watson refer to still other definitions of $\vartheta _{j}$ . The warning in Abramowitz and Stegun, "There is a bewildering variety of notations...in consulting books caution should be exercised," may be viewed as an understatement. In any expression, an occurrence of $\vartheta (z)$ should not be assumed to have any particular definition. It is incumbent upon the author to state what definition of $\vartheta (z)$ is intended.

References

Milton Abramowitz and Irene A. Stegun, Handbook of Mathematical Functions, (1964) Dover Publications, New York. ISBN 0-486-61272-4. (See section 16.27ff.)
I. S. Gradshteyn and I. M. Ryzhik, Table of Integrals, Functions, and Products, (1980) Academic Press, London. ISBN 0-12-294760-6. (See section 8.18)
E. T. Whittaker and G. N. Watson, A Course in Modern Analysis, fourth edition, Cambridge University Press, 1927. (See chapter XXI for the history of Jacobi's θ functions)

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+There are a number of notational systems for the [[Theta function|Jacobi theta functions]]. The notations given in the Wikipedia article define the original function
+:<math>
+\vartheta_{00}(z; \tau) = \sum_{n=-\infty}^\infty \exp (\pi i n^2 \tau + 2 \pi i n z)
+</math>
+which is equivalent to
+:<math>
+\vartheta_{00}(z, q) = \sum_{n=-\infty}^\infty q^{n^2} \exp (2 \pi i n z)
+</math>
+However, a similar notation is defined somewhat differently in Whittaker and Watson, p.&nbsp;487:
+:<math>
+\vartheta_{0,0}(x) = \sum_{n=-\infty}^\infty q^{n^2} \exp (2 \pi i n x/a)
+</math>
+This notation is attributed to "Hermite, H.J.S. Smith and some other mathematicians". They also define
+:<math>
+\vartheta_{1,1}(x) = \sum_{n=-\infty}^\infty (-1)^n q^{(n+1/2)^2} \exp (\pi i (2 n + 1) x/a)
+</math>
+This is a factor of ''i'' off from the definition of <math>\vartheta_{11}</math> as defined in the Wikipedia article. These definitions can be made at least proportional by ''x'' = ''za'', but other definitions cannot. Whittaker and Watson, Abramowitz and Stegun, and Gradshteyn and Ryzhik all follow Tannery and Molk, in which
+:<math>
+\vartheta_1(z) = -i \sum_{n=-\infty}^\infty (-1)^n q^{(n+1/2)^2} \exp ((2 n + 1) i z)</math>
+:<math>
+\vartheta_2(z) = \sum_{n=-\infty}^\infty q^{(n+1/2)^2} \exp ((2 n + 1) i z)</math>
+:<math>
+\vartheta_3(z) = \sum_{n=-\infty}^\infty q^{n^2} \exp (2 n i z)</math>
+:<math>
+\vartheta_4(z) = \sum_{n=-\infty}^\infty (-1)^n q^{n^2} \exp (2 n i z)</math>
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+Note that there is no factor of π in the argument as in the previous definitions.
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+Whittaker and Watson refer to still other definitions of <math>\vartheta_j</math>. The warning in Abramowitz and Stegun, "There is a bewildering variety of notations...in consulting books caution should be exercised," may be viewed as an understatement. In any expression, an occurrence of <math>\vartheta(z)</math> should not be assumed to have any particular definition. It is incumbent upon the author to state what definition of <math>\vartheta(z)</math> is intended.
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+==References==
+* Milton Abramowitz and Irene A. Stegun, ''[[Abramowitz and Stegun|Handbook of Mathematical Functions]]'', (1964) Dover Publications, New York. ISBN 0-486-61272-4.  ''(See section 16.27ff.)''
+* I. S. Gradshteyn and I. M. Ryzhik, ''Table of Integrals, Functions, and Products'', (1980) Academic Press, London. ISBN 0-12-294760-6.  ''(See section 8.18)''
+* [[E. T. Whittaker]] and [[G. N. Watson]], ''A Course in Modern Analysis'', fourth edition, Cambridge University Press, 1927. ''(See chapter XXI for the history of Jacobi's &theta; functions)''
+[[Category:Theta functions| ]]
+[[Category:Elliptic functions]]

Well-pointed category: Difference between revisions

Latest revision as of 07:58, 3 December 2013

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