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ogn
ogn
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Hello,

Consider the multiplicative group $(\mathbb{Z}/p)^*$ for a given prime $p$. We know that the number of generators in this group is $\phi(p-1)$ --- the Euleur totient function. The question is, for $0 \leq a < a + \log p < b \leq p-1$$0 \leq a < a + \log^{c} p < b \leq p-1$ where $c$ is a constant (say $c=10$), how many generators of the group belongs to $[a,b]$? In other words, what is the density of generators in a given interval $[a,b]$ (compared to the density $\phi(p-1)/p-1$)? Is it easier if $b=p-1$?

For a given prime $p$, whichwhat is the densest interval in term of generators?

Hello,

Consider the multiplicative group $(\mathbb{Z}/p)^*$ for a given prime $p$. We know that the number of generators in this group is $\phi(p-1)$ --- the Euleur totient function. The question is, for $0 \leq a < a + \log p < b \leq p-1$, how many generators of the group belongs to $[a,b]$? In other words, what is the density of generators in a given interval $[a,b]$ (compared to the density $\phi(p-1)/p-1$)? Is it easier if $b=p-1$?

For a given prime $p$, which is the densest interval in term of generators?

Hello,

Consider the multiplicative group $(\mathbb{Z}/p)^*$ for a given prime $p$. We know that the number of generators in this group is $\phi(p-1)$ --- the Euleur totient function. The question is, for $0 \leq a < a + \log^{c} p < b \leq p-1$ where $c$ is a constant (say $c=10$), how many generators of the group belongs to $[a,b]$? In other words, what is the density of generators in a given interval $[a,b]$ (compared to the density $\phi(p-1)/p-1$)? Is it easier if $b=p-1$?

For a given prime $p$, what is the densest interval in term of generators?

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Marc Palm
Marc Palm
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Hello,

Consider the multiplicative group $\mathbb{Z}^*_p$$(\mathbb{Z}/p)^*$ for a given prime $p$. We know that the number of generators in this group is $\phi(p-1)$ --- the Euleur totient function. The question is, for $0 \leq a < a + \log p < b \leq p-1$, how many generators of the group belongs to $[a,b]$? In other words, what is the density of generators in a given interval $[a,b]$ (compared to the density $\phi(p-1)/p-1$)? Is it easier if $b=p-1$?

For a given prime $p$, which is the densest interval in term of generators?

Hello,

Consider the multiplicative group $\mathbb{Z}^*_p$ for a given prime $p$. We know that the number of generators in this group is $\phi(p-1)$ --- the Euleur totient function. The question is, for $0 \leq a < a + \log p < b \leq p-1$, how many generators of the group belongs to $[a,b]$? In other words, what is the density of generators in a given interval $[a,b]$ (compared to the density $\phi(p-1)/p-1$)? Is it easier if $b=p-1$?

For a given prime $p$, which is the densest interval in term of generators?

Hello,

Consider the multiplicative group $(\mathbb{Z}/p)^*$ for a given prime $p$. We know that the number of generators in this group is $\phi(p-1)$ --- the Euleur totient function. The question is, for $0 \leq a < a + \log p < b \leq p-1$, how many generators of the group belongs to $[a,b]$? In other words, what is the density of generators in a given interval $[a,b]$ (compared to the density $\phi(p-1)/p-1$)? Is it easier if $b=p-1$?

For a given prime $p$, which is the densest interval in term of generators?

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Anthony Quas
Anthony Quas
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ogn
ogn
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