Abstract:
Cubed sphere is one of the main tools used to avoid pole problems those arise in the selection of spherical polar coordinates. In
this respect, earlier we considered a recently developed cubed sphere based on coordinate mapping over the cubed surface.
The function on the sphere was treated as an ordered set of six-tuples. In that work, we established weakly orthogonal and
completely orthogonal spherical harmonics of the system and developed corresponding symmetric and linear relations. Also,
we found the norm of the orthogonal spherical harmonics. In this work, we explore the Fourier representation of a spherical
function on this coordinate system in terms of weakly orthogonal spherical harmonics. The advantages of the linear relation
between the two sets of spherical harmonics and diagonal property of the norm of the fully orthogonal spherical harmonics
were in cooperated for this work. We also strength our work by giving an example to demonstrate how Fourier coefficients can
be computed to represent a given spherical function in terms of the spherical harmonics of the coordinate system.
