A Feiner Look at the Intermediate Degrees
We say that a set $S$ is $\Delta^0_{(n)}(X)$ if membership of $n$ in $S$ is a $\Delta^0_{n}(X)$ question, uniformly in $n$. A set $X$ is low for $\Delta$-Feiner if every set $S$ that is $\Delta^0_{(n)}(X)$ is also $\Delta^0_{(n)}(\emptyset)$. It is easy to see that every low$_n$ set is low for $\Del...
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| Zusammenfassung: | We say that a set $S$ is $\Delta^0_{(n)}(X)$ if membership of $n$ in $S$ is a
$\Delta^0_{n}(X)$ question, uniformly in $n$. A set $X$ is low for
$\Delta$-Feiner if every set $S$ that is $\Delta^0_{(n)}(X)$ is also
$\Delta^0_{(n)}(\emptyset)$. It is easy to see that every low$_n$ set is low
for $\Delta$-Feiner, but we show that the converse is not true by constructing
an intermediate c.e. set that is low for $\Delta$-Feiner. We also study
variations on this notion, such as the sets that are $\Delta^0_{(bn+a)}(X)$,
$\Sigma^0_{(bn+a)}(X)$, or $\Pi^0_{(bn+a)}(X)$, and the sets that are low,
intermediate, and high for these classes. In doing so, we obtain a result on
the computability of Boolean algebras, namely that there is a Boolean algebra
of intermediate c.e. degree with no computable copy. |
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| DOI: | 10.48550/arxiv.2110.06402 |