MathGroup Archive: December 2013 [00058]

[Date Index] [Thread Index] [Author Index]

Re: Hermite Polynomials of fractional order

To: mathgroup at smc.vnet.net
Subject: [mg132125] Re: Hermite Polynomials of fractional order
From: Roland Franzius <roland.franzius at uos.de>
Date: Tue, 17 Dec 2013 04:42:10 -0500 (EST)
Delivered-to: l-mathgroup@mail-archive0.wolfram.com
Delivered-to: l-mathgroup@wolfram.com
Delivered-to: mathgroup-outx@smc.vnet.net
Delivered-to: mathgroup-newsendx@smc.vnet.net
References: <4upfrh$48n@dragonfly.wolfram.com> <l8k05r$or7$1@smc.vnet.net>

Am 15.12.2013 11:27, schrieb David Reiss:
> You can gain some insight into the non-integer HermiteH function by looking at it's series expansion in the general case....
>
> Series[HermiteH[a, x], {x, 0, 2}]

The original posting is from 1996:-;

Generally speaking,

today its much easier to have a look at

http://mathworld.wolfram.com/ParabolicCylinderFunction.html

or

http://functions.wolfram.com/HypergeometricFunctions/ParabolicCylinderD/
  or type something you are searching

in

http://www.wolframalpha.com/

-- 

Roland Franzius

Prev by Date: Re: Hermite Polynomials of fractional order

Next by Date: ScaledListPlot functionality

Previous by thread: Re: Hermite Polynomials of fractional order

Next by thread: Re: Hermite Polynomials of fractional order