Leading Digit Laws on Linear Lie Groups
Abstract
We determine the leading digit laws for the matrix components of a linear Lie group . These laws generalize the observations that the normalized Haar measure of the Lie group is and that the scale invariance of implies the distribution of the digits follow Benford's law, which is the probability of observing a significand base of at most is ; thus the first digit is with probability ). Viewing this scale invariance as left invariance of Haar measure, we determine the power laws in significands from one matrix component of various such . We also determine the leading digit distribution of a fixed number of components of a unit sphere, and find periodic behavior when the dimension of the sphere tends to infinity in a certain progression.
Keywords
Cite
@article{arxiv.1507.01605,
title = {Leading Digit Laws on Linear Lie Groups},
author = {Corey Manack and Steven J. Miller},
journal= {arXiv preprint arXiv:1507.01605},
year = {2015}
}
Comments
Version 1.0, 17 pages, 1 figure