Characterisation of Non-Archimedean Division Ring Norms/Sufficient Condition

Theorem
Let $\struct{R, \norm{\,\cdot\,}}$ be a normed division ring with unity $1_R$.

Then:
 * $\forall n \in \N_{>0}: \norm{n \cdot 1_R} \le 1 \implies \norm{\,\cdot\,}$ is non-archimedean

where $n \cdot 1_R = \underbrace {1_R + 1_R + \dots + 1_R}_{n \, times}$

Proof
Let:
 * $\forall n \in \N_{>0}: \norm{n \cdot 1_R} \le 1$

Lemma 1
Hence it is sufficient to prove:
 * $\forall x \in R: \norm{ x + 1_R} \le \max \set{\norm{x }, 1 }$

For $n \in \N$:

Lemma 2
Hence

Taking $n$th roots yields:
 * $\norm{x + 1_R} \le \paren {\sqrt [n] {n+1} } \max \set {\norm {x}, 1}$