Xenharmonic series

Here's a place to gather xenharmonic variations on the harmonic series.

Powharmonic series: [math]\displaystyle{ f(n) = n^p }[/math]
Edharmonic series: [math]\displaystyle{ f(n) = a^{H(n)} }[/math]
Logharmonic series: [math]\displaystyle{ f(n) = log_b{n} }[/math]
Matharmonic series: [math]\displaystyle{ f(n) = H(n) }[/math]
Metallic harmonic series: [math]\displaystyle{ f(n) = μ_n }[/math]
Superparticular series: [math]\displaystyle{ f(n) = \frac{n+1}{n} }[/math]
Subparticular series: [math]\displaystyle{ f(n) = \frac{n}{n+1} }[/math]
Oddharmonic series: [math]\displaystyle{ f(n) = 2n-1 }[/math]
Prime harmonic series: [math]\displaystyle{ f(n) = p_n }[/math]
Triangulharmonic series: [math]\displaystyle{ f(n) = \frac{n^2 + n}{2} }[/math]
Dumb Fibonacci series: [math]\displaystyle{ f(n) = f(n-1) + f(n-2) }[/math]
Overtone Sequences: [math]\displaystyle{ f(n) = 1 + cn }[/math], where c is rational
Arithmetic Frequency Sequences: [math]\displaystyle{ f(n) = 1 + cn }[/math], where c is irrational

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