Sonin integral

The representation of a cylinder function (cf. Cylinder functions) by a contour integral

$$ J _ \nu ( z) = \ \frac{1}{2 \pi i } \int\limits _ {- \infty } ^ { {( } 0+) } e ^ {z ( t ^ {2} - t ) /2t } t ^ {- \nu - 1 } dt, $$

where $ \nu $ is arbitrary and $ \mathop{\rm Re} z > 0 $ or $ - \pi /2 < \mathop{\rm arg} z < \pi /2 $. Integrals of this type were studied by N.Ya. Sonin (1870).

An integral of the form below is sometimes called a Sonin integral:

$$ J _ {m + n + 1 } ( x) = $$

$$ = \ \frac{x ^ {n + 1 } }{2 ^ {n} \Gamma ( n + 1) } \int\limits _ { 0 } ^ { \pi /2 } J _ {m} ( x \sin t) \sin ^ {m + 1 } t \cos ^ {2n + 1 } t dt, $$

$$ \mathop{\rm Re} m, \mathop{\rm Re} n > - 1. $$

References

Comments

In Western practice one usually writes Sonine integral. Transformed versions of the contour integral were independently obtained by L. Schläfli (1873) and integrals of this type are also called Schläfli integrals. The second mentioned integral is known as Sonine's first finite integral.

References