Embedding the Diamond Lattice in the c.e.tt-Degrees with Superhigh Atoms

机译：将钻石晶格嵌入超高原子的c-e.tt度

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The notion of superhigh computably enumerable (c.e.) degrees was first introduced by Mohrherr in [7], where she proved the existence of incomplete superhigh c.e. degrees, and high, but not superhigh, c.e. degrees. Recent research shows that the notion of superhighness is closely related to algorithmic randomness and effective measure theory. Jockusch and Mohrherr proved in [4] that the diamond lattice can be embedded into the c.e. tt-degrees preserving 0 and 1 and that the two atoms can be low. In this paper, we prove that the two atoms in such embeddings can also be superhigh.

机译：Mohrherr在[7]中首次提出了可计算可数（c.e.）度的超高概念，在那里她证明了不完全的超高c.e.的存在。度和高，但不是超高，例如度。最近的研究表明，超高概念与算法随机性和有效测度理论密切相关。 Jockusch和Mohrherr在[4]中证明了钻石晶格可以嵌入到c.e中。 tt度保持0和1，并且两个原子可以很低。在本文中，我们证明了此类嵌入中的两个原子也可以是超高的。

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《Theory and application of models of computation》|2009年|420-429|共10页
会议地点 Changsha(CN);Changsha(CN);Changsha(CN)
作者
Douglas Cenzer; Johanna N.Y. Franklin; Jiang Liu; Guohua Wu;
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作者单位

Department of Mathematics University of Florida 310 Little Hall, Gainesville, FL 32611-8105, USA;

Department of Mathematics National University of Singapore 2, Science Drive 2, Singapore 117543, Singapore;

Division of Mathematical Sciences School of Physical and Mathematical Sciences Nanyang Technological University Singapore 637371, Singapore;

Division of Mathematical Sciences School of Physical and Mathematical Sciences Nanyang Technological University Singapore 637371, Singapore;

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原文格式 PDF
正文语种 eng
中图分类计算技术、计算机技术;
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Embedding the Diamond Lattice in the c.e.tt-Degrees with Superhigh Atoms

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