Serikzhan A. Badaev, Nikolay A. Bazhenov, Birzhan S. Kalmurzayev, Manat Mustafa
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Here we prove that this result fails already for <span>\\(\\Delta ^0_2\\)</span> equivalence relations, starting with the <span>\\(\\Pi ^{-1}_2\\)</span> level. We focus on the Turing degrees of possible diagonal functions. We prove that for any noncomputable c.e. degree <span>\\({\\textbf{d}}\\)</span>, there exists a weakly precomplete c.e. equivalence <i>E</i> admitting a <span>\\({\\textbf{d}}\\)</span>-computable diagonal function. We observe that a Turing degree <span>\\({\\textbf{d}}\\)</span> can compute a diagonal function for every <span>\\(\\Delta ^0_2\\)</span> equivalence relation <i>E</i> if and only if <span>\\({\\textbf{d}}\\)</span> computes <span>\\({\\textbf{0}}'\\)</span>. On the other hand, every PA degree can compute a diagonal function for an arbitrary c.e. equivalence <i>E</i>. In addition, if <span>\\({\\textbf{d}}\\)</span> computes diagonal functions for all c.e. <i>E</i>, then <span>\\({\\textbf{d}}\\)</span> must be a DNC degree.</p></div>","PeriodicalId":48853,"journal":{"name":"Archive for Mathematical Logic","volume":null,"pages":null},"PeriodicalIF":0.3000,"publicationDate":"2023-10-18","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://link.springer.com/content/pdf/10.1007/s00153-023-00896-0.pdf","citationCount":"0","resultStr":"{\"title\":\"On diagonal functions for equivalence relations\",\"authors\":\"Serikzhan A. Badaev, Nikolay A. Bazhenov, Birzhan S. Kalmurzayev, Manat Mustafa\",\"doi\":\"10.1007/s00153-023-00896-0\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>We work with weakly precomplete equivalence relations introduced by Badaev. The weak precompleteness is a natural notion inspired by various fixed point theorems in computability theory. Let <i>E</i> be an equivalence relation on the set of natural numbers <span>\\\\(\\\\omega \\\\)</span>, having at least two classes. A total function <i>f</i> is a <i>diagonal function</i> for <i>E</i> if for every <i>x</i>, the numbers <i>x</i> and <i>f</i>(<i>x</i>) are not <i>E</i>-equivalent. It is known that in the case of c.e. relations <i>E</i>, the weak precompleteness of <i>E</i> is equivalent to the lack of computable diagonal functions for <i>E</i>. Here we prove that this result fails already for <span>\\\\(\\\\Delta ^0_2\\\\)</span> equivalence relations, starting with the <span>\\\\(\\\\Pi ^{-1}_2\\\\)</span> level. We focus on the Turing degrees of possible diagonal functions. We prove that for any noncomputable c.e. degree <span>\\\\({\\\\textbf{d}}\\\\)</span>, there exists a weakly precomplete c.e. equivalence <i>E</i> admitting a <span>\\\\({\\\\textbf{d}}\\\\)</span>-computable diagonal function. 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引用次数: 0
摘要
我们使用巴达耶夫提出的弱预完备等价关系。弱预完备性是一个自然概念,它受到可计算性理论中各种定点定理的启发。让 E 成为自然数集 \(\omega \) 上的等价关系,它至少有两类。如果对于每个 x,数 x 和 f(x) 都不是 E 等价的,那么总函数 f 就是 E 的对角函数。众所周知,在等价关系 E 的情况下,E 的弱预完备性等价于 E 缺乏可计算的对角函数。在这里,我们从 \(\Pi ^{-1}_2\)层次开始证明,对于 \(\Delta ^0_2\)等价关系,这一结果已经失效了。我们关注可能的对角函数的图灵度。我们证明,对于任何不可计算的图灵度(\textbf{d}}\),都存在一个弱预完备的图灵等价关系 E,它容许一个可计算的对角函数(\textbf{d}}\)。我们观察到,当且仅当\({\textbf{d}}\)计算\({\textbf{0}}'\)时,图灵度\({\textbf{d}}\)可以为每个\(\Delta ^0_2\)等价关系E计算对角函数。另外,如果 \({\textbf{d}} 计算所有等价关系 E 的对角函数,那么 \({\textbf{d}} 一定是一个 DNC 度。
We work with weakly precomplete equivalence relations introduced by Badaev. The weak precompleteness is a natural notion inspired by various fixed point theorems in computability theory. Let E be an equivalence relation on the set of natural numbers \(\omega \), having at least two classes. A total function f is a diagonal function for E if for every x, the numbers x and f(x) are not E-equivalent. It is known that in the case of c.e. relations E, the weak precompleteness of E is equivalent to the lack of computable diagonal functions for E. Here we prove that this result fails already for \(\Delta ^0_2\) equivalence relations, starting with the \(\Pi ^{-1}_2\) level. We focus on the Turing degrees of possible diagonal functions. We prove that for any noncomputable c.e. degree \({\textbf{d}}\), there exists a weakly precomplete c.e. equivalence E admitting a \({\textbf{d}}\)-computable diagonal function. We observe that a Turing degree \({\textbf{d}}\) can compute a diagonal function for every \(\Delta ^0_2\) equivalence relation E if and only if \({\textbf{d}}\) computes \({\textbf{0}}'\). On the other hand, every PA degree can compute a diagonal function for an arbitrary c.e. equivalence E. In addition, if \({\textbf{d}}\) computes diagonal functions for all c.e. E, then \({\textbf{d}}\) must be a DNC degree.
期刊介绍:
The journal publishes research papers and occasionally surveys or expositions on mathematical logic. Contributions are also welcomed from other related areas, such as theoretical computer science or philosophy, as long as the methods of mathematical logic play a significant role. The journal therefore addresses logicians and mathematicians, computer scientists, and philosophers who are interested in the applications of mathematical logic in their own field, as well as its interactions with other areas of research.
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