What part of spherical harmonic coefficients represents physics quantities?

In summary, the person is asking for help expanding a real spherical function in terms of spherical harmonics with complex coefficients. They are wondering which part of the coefficients they should look at for physics quantities. The solution is to combine two spherical harmonics with the same l value but opposite m values to obtain two real functions, similar to combining exp(ix) and exp(-ix) to get cos(x) and sin(x). These new functions can be used as a real basis and are often seen in the representation of chemists' orbitals.
  • #1
susantha
6
0
Hi,
I need expand a spherical function(real function not a complex function) in terms of spherical harmonics. Expansion coefficients are complex numbers. If i need to observe physics quantities that are represented by the spherical harmonics coefficients which part should i look at- real part, complex part or the magnitudes (sqrt(real^2 + imaginary^2) of spherical harmonic coefficients?

Thanks in advance
 
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  • #2
You can combine the two spherical harmonics with same l but m and -m to get two real functions just like you can combine exp(ix) and exp(-ix) to obtain cos(x) and sin(x). These new functions form a real basis which you can use. You have probably seen them in the representation of the chemists orbitals.
 

What is a Spherical Harmonics expansion?

A Spherical Harmonics expansion is a mathematical technique used to represent a function on the surface of a sphere as a series of spherical harmonics. It is commonly used in solving physical problems involving spherical symmetry, such as in quantum mechanics, electromagnetism, and geodesy.

What is the purpose of a Spherical Harmonics expansion?

The purpose of a Spherical Harmonics expansion is to simplify the representation of a function on a sphere by breaking it down into a series of simpler, orthogonal functions. This allows for easier analysis and calculations, as well as providing a more intuitive understanding of the function.

How is a Spherical Harmonics expansion calculated?

A Spherical Harmonics expansion is calculated by decomposing the original function into a series of spherical harmonics using the associated Legendre polynomials. The coefficients of the expansion are then determined through integration and orthogonality conditions.

What are the applications of Spherical Harmonics expansion?

Spherical Harmonics expansion has many applications in physics, engineering, and mathematics. It is commonly used in solving problems involving the behavior of waves on a spherical surface, such as in acoustics, optics, and gravitational waves. It is also used in geodesy for mapping the Earth's gravitational field and in computer graphics for rendering 3D objects.

What are the limitations of using a Spherical Harmonics expansion?

While Spherical Harmonics expansion is a powerful and versatile tool, it does have some limitations. It is most effective for functions with spherical symmetry, so it may not be applicable to all problems. Additionally, the accuracy of the expansion depends on the number of terms used, so in some cases, a large number of terms may be needed for an accurate representation.

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