What are the eigenfunctions of the spherical Fourier transform?

Click For Summary
SUMMARY

The eigenfunctions of the spherical Fourier transform are identified as spherical harmonics, which involve Legendre functions. For spherically symmetric functions, the discussion emphasizes that while spherical harmonics account for angular dependencies, the radial component can be expressed using A sin(kr) + B cos(kr) or A/r sin(kr) + B/r cos(kr). The conversation also suggests exploring the 3D Fourier transform in Cartesian coordinates and transforming it to spherical coordinates for further insights.

PREREQUISITES
  • Understanding of spherical harmonics and their relation to Legendre functions
  • Familiarity with Fourier transforms in both Cartesian and spherical coordinates
  • Knowledge of ordinary differential equations, particularly Euler-type equations
  • Basic concepts of wave equations in three dimensions
NEXT STEPS
  • Study the properties and applications of spherical harmonics
  • Learn about the derivation and application of Bessel functions in higher dimensions
  • Research the transformation of Fourier transforms from Cartesian to spherical coordinates
  • Explore the implications of eigenfunctions in the context of spherical Fourier transforms
USEFUL FOR

Mathematicians, physicists, and engineers working with spherical harmonics, Fourier analysis, and wave equations, particularly those focusing on spherically symmetric functions.

christianjb
Messages
529
Reaction score
1
Does anyone know what the eigenfunctions of the spherical Fourier transform are? I want to expand a spherically symmetric function in these eigenfunctions.

Are they Bessel functions? Legendre functions?
 
Mathematics news on Phys.org
In that case your equation should reduce to an ordinary differential equation in \rho and, if I remember correctly, for the Laplace operator, at least, it is an "Euler type" equation with powers of \rho as solution.
 
I'm not solving a differential eqn. I'm looking for an orthogonal basis where each basis function is an eigenfunction of the spherical Fourier transform.
 
I'm pretty sure you can still expand it in terms of A \sin kr + B \cos kr. It is, after all, some function of r, so you can just Fourier-transform it normally. If not, then try

\frac{A}{r} \sin kr + \frac{B}{r} \cos kr

This is a solution of the wave equation in 3 dimensions, in the same since that sin and cos are solutions in 1 dimension, and Bessel functions are solutions in 2 dimensions.

I could be totally wrong here, though.

Yet another option is to write down the 3D Fourier transform in Cartesian coordinates, and transform it to spherical coordinates.
 
Last edited:
Thanks- but I'm specifically looking for the eigenfunctions of the spherically symmetric Fourier transform. I've already got numerical solutions for the spherical FT.
 
Tschew said:
Hi, this is a very late reply but I found your post as one of the first results in a google search and thought other people searching would find the following link interesting:

Fourier Analysis in Polar and Spherical Coordinates

http://lmb.informatik.uni-freiburg.de/papers/download/wa_report01_08.pdf

Thanks a LOT, dude, this paper just really helped me! Good thing that the internet doesn't forget so even such old threads can be helpful.
 

Similar threads

Undergrad Can the Fourier transform be applied to moving averages with Python?
  • · Replies 3 ·
Replies
3
Views
2K
Undergrad The precise relationship between Fourier series and Fourier transform
  • · Replies 12 ·
Replies
12
Views
4K
High School How to calculate the Fourier transform of sin(a*t)*exp(-t/b) ?
  • · Replies 7 ·
Replies
7
Views
2K
Graduate Memory issues in numerical integration of oscillatory function
  • · Replies 3 ·
Replies
3
Views
2K
Undergrad Orthogonal 3D Basis Functions in Spherical Coordinates
  • · Replies 3 ·
Replies
3
Views
4K
Graduate [itex]L^2(-\infty, +\infty)[/itex] and LTI systems
  • · Replies 9 ·
Replies
9
Views
2K
Fourier transform of PSD
  • · Replies 4 ·
Replies
4
Views
2K
Undergrad Interpretation of the Fourier Transform of a Cauchy Distribution
  • · Replies 4 ·
Replies
4
Views
3K
Graduate Fourier series approximation of a discontinuous eddy function
  • · Replies 1 ·
Replies
1
Views
2K
How are Fourier Series and Fourier transform are related?
  • · Replies 1 ·
Replies
1
Views
2K