Return to Question

edited title; deleted 116 characters in body

view source

edited Sep 29 at 4:15

Safoura
136●1●5

Is $\beta\mathbb{N}$ really nicer than vs $\beta\mathbb{Z}$?\beta\mathbb{Z}$

My deepest apology to specialist in this area! Obviously, my knowledge has measure zero in this area at this point!

Just started learning the Stone-Cech compactification of discrete groups this week. My motivation comes from a question on $\beta\mathbb{Z}$. Surprisingly, I realized there are muchhhh more literature devoted to $\beta\mathbb{N}$ than to $\beta\mathbb{Z}$. I wonder why is that? After all, algebraically $\mathbb{N}$ is a semigroup while $\mathbb{Z}$ is a group, and as discrete topological spaces they are homeomorphic. From your experience, how far $\beta\mathbb{N}$ and $\beta\mathbb{Z}$ are different in behaviour? Also, is $\beta\mathbb{N}$ ( or ($\beta\mathbb{N}\setminus\mathbb{N}$) easier to deal with?

[made Community Wiki]

view source

asked Sep 29 at 4:10

Safoura
136●1●5

Is $\beta\mathbb{N}$ really nicer than $\beta\mathbb{Z}$?

My deepest apology to specialist in this area! Obviously, my knowledge has measure zero in this area at this point! Just started learning the Stone-Cech compactification of discrete groups this week. My motivation comes from a question on $\beta\mathbb{Z}$. Surprisingly, I realized there are muchhhh more literature devoted to $\beta\mathbb{N}$ than to $\beta\mathbb{Z}$. I wonder why is that? After all, algebraically $\mathbb{N}$ is a semigroup while $\mathbb{Z}$ is a group, and as discrete topological spaces they are homeomorphic. From your experience, how far $\beta\mathbb{N}$ and $\beta\mathbb{Z}$ are different in behaviour? Also, is $\beta\mathbb{N}$ ( or ($\beta\mathbb{N}\setminus\mathbb{N}$) easier to deal with?