On $\star $-Power Conductor domains
Abstract: Let $D$ be an integral domain and $\star $ a star operation defined on $D$. We say that $D$ is a $\star $-power conductor domain ($\star $-PCD) if for each pair $a,b\in D\backslash (0)$ and for each positive integer $n$ we have $Da{n}\cap Db{n}=((Da\cap Db){n}){\ast }.$ We study $\star $-PCDs and characterize them as root closed domains satisfying $ ((a,b){n}){-1}=(((a,b){-1}){n}){\star }$ for all nonzero $a,b$ and all natural numbers $n\geq 1$. From this it follows easily that Pr\"{u}fer domains are $d$-PCDs (where $d$ denotes the trivial star operation), and $v$ -domains (e.g., Krull domains) are $v$-PCDs, thereby establishing that a $v$ -domain (e.g., a Prufer or Krull domain) is a $\star $ -PCD. We also consider when a $\star $-PCD is completely integrally closed, and this leads to new characterizations of Krulll domains. In particular, we show that a Noetherian domain is a Krull domain if and only if it is a $w$ -PCD.
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