Mitchell order

In mathematical set theory, the Mitchell order is a well-founded preorder on the set of normal measures on a measurable cardinal κ. It is named for William Mitchell. We say that M ◅ N (this is a strict order) if M is in the ultrapower model defined by N. Intuitively, this means that M is a weaker measure than N (note, for example, that κ will still be measurable in the ultrapower for N, since M is a measure on it). In fact, the Mitchell order can be defined on the set (or proper class, as the case may be) of extenders for κ; but if it is so defined it may fail to be transitive, or even well-founded, provided κ has sufficiently strong large cardinal properties. Well-foundedness fails specifically for rank-into-rank extenders; but Itay Neeman showed in 2004 that it holds for all weaker types of extender.

The Mitchell rank of a measure is the order type of its predecessors under ◅; since ◅ is well-founded this is always an ordinal. Using the method of coherent sequences, for any rank [math]\displaystyle{ \leq\kappa^{++} }[/math] Mitchell constructed an inner model for a measurable cardinal of rank [math]\displaystyle{ \kappa }[/math].^[1]

A cardinal that has measures of Mitchell rank α for each α < β is said to be β-measurable.

References

• John Steel (Sep 1993). "The Well-Foundedness of the Mitchell Order". Journal of Symbolic Logic 58 (3): 931–940. doi:10.2307/2275105. 
• Itay Neeman (2004). "The Mitchell order below rank-to-rank". Journal of Symbolic Logic 69 (4): 1143–1162. doi:10.2178/jsl/1102022215. 
• Akihiro Kanamori (1997). The Higher Infinite. Perspectives in Mathematical Logic. Springer. 
• Donald A. Martin; John Steel (1994). "Iteration trees". Journal of the American Mathematical Society 7 (1): 1–73. doi:10.2307/2152720. 
• William Mitchell (1974). "Sets constructible from sequences of ultrafilters". Journal of Symbolic Logic 39 (1): 57–66. doi:10.2307/2272343. 

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