Almost Everywhere Behavior of Functions According to Partition Measures

IF 1.2 2区数学 Q1 MATHEMATICS Forum of Mathematics Sigma Pub Date : 2024-01-29 DOI:10.1017/fms.2023.130

William Chan, Stephen Jackson, Nam Trang

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引用次数: 0

Abstract

This paper will study almost everywhere behaviors of functions on partition spaces of cardinals possessing suitable partition properties. Almost everywhere continuity and monotonicity properties for functions on partition spaces will be established. These results will be applied to distinguish the cardinality of certain subsets of the power set of partition cardinals. The following summarizes the main results proved under suitable partition hypotheses.

• If

$\kappa $

is a cardinal,

$\epsilon < \kappa $

${\mathrm {cof}}(\epsilon ) = \omega $

$\kappa \rightarrow _* (\kappa )^{\epsilon \cdot \epsilon }_2$

and

$\Phi : [\kappa ]^\epsilon _* \rightarrow \mathrm {ON}$

, then

$\Phi $

satisfies the almost everywhere short length continuity property: There is a club

$C \subseteq \kappa $

and a

$\delta < \epsilon $

so that for all

$f,g \in [C]^\epsilon _*$

, if

$f \upharpoonright \delta = g \upharpoonright \delta $

and

$\sup (f) = \sup (g)$

, then

$\Phi (f) = \Phi (g)$

• If

$\kappa $

is a cardinal,

$\epsilon $

is countable,

$\kappa \rightarrow _* (\kappa )^{\epsilon \cdot \epsilon }_2$

holds and

$\Phi : [\kappa ]^\epsilon _* \rightarrow \mathrm {ON}$

, then

$\Phi $

satisfies the strong almost everywhere short length continuity property: There is a club

$C \subseteq \kappa $

and finitely many ordinals

$\delta _0, ..., \delta _k \leq \epsilon $

so that for all

$f,g \in [C]^\epsilon _*$

, if for all

$0 \leq i \leq k$

$\sup (f \upharpoonright \delta _i) = \sup (g \upharpoonright \delta _i)$

, then

$\Phi (f) = \Phi (g)$

• If

$\kappa $

satisfies

$\kappa \rightarrow _* (\kappa )^\kappa _2$

$\epsilon \leq \kappa $

and

$\Phi : [\kappa ]^\epsilon _* \rightarrow \mathrm {ON}$

, then

$\Phi $

satisfies the almost everywhere monotonicity property: There is a club

$C \subseteq \kappa $

so that for all

$f,g \in [C]^\epsilon _*$

, if for all

$\alpha < \epsilon $

$f(\alpha ) \leq g(\alpha )$

, then

$\Phi (f) \leq \Phi (g)$

• Suppose dependent choice (

$\mathsf {DC}$

${\omega _1} \rightarrow _* ({\omega _1})^{\omega _1}_2$

and the almost everywhere short length club uniformization principle for

${\omega _1}$

hold. Then every function

$\Phi : [{\omega _1}]^{\omega _1}_* \rightarrow {\omega _1}$

satisfies a finite continuity property with respect to closure points: Let

$\mathfrak {C}_f$

be the club of

$\alpha < {\omega _1}$

so that

$\sup (f \upharpoonright \alpha ) = \alpha $

. There is a club

$C \subseteq {\omega _1}$

and finitely many functions

$\Upsilon _0, ..., \Upsilon _{n - 1} : [C]^{\omega _1}_* \rightarrow {\omega _1}$

so that for all

$f \in [C]^{\omega _1}_*$

, for all

$g \in [C]^{\omega _1}_*$

, if

$\mathfrak {C}_g = \mathfrak {C}_f$

and for all

$i < n$

$\sup (g \upharpoonright \Upsilon _i(f)) = \sup (f \upharpoonright \Upsilon _i(f))$

, then

$\Phi (g) = \Phi (f)$

• Suppose

$\kappa $

satisfies

$\kappa \rightarrow _* (\kappa )^\epsilon _2$

for all

$\epsilon < \kappa $

. For all

$\chi < \kappa $

$[\kappa ]^{<\kappa }$

does not inject into

${}^\chi \mathrm {ON}$

, the class of

$\chi $

-length sequences of ordinals, and therefore,

$|[\kappa ]^\chi | < |[\kappa ]^{<\kappa }|$

. As a consequence, under the axiom of determinacy

$(\mathsf {AD})$

, these two cardinality results hold when

$\kappa $

is one of the following weak or strong partition cardinals of determinacy:

${\omega _1}$

$\omega _2$

$\boldsymbol {\delta }_n^1$

(for all

$1 \leq n < \omega $

) and

$\boldsymbol {\delta }^2_1$

(assuming in addition

$\mathsf {DC}_{\mathbb {R}}$

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根据分割度量的函数几乎无处不在的行为

本文将研究具有适当分区性质的红心分区空间上函数的几乎无处不在行为。本文将建立分区空间上函数的几乎无处不在的连续性和单调性。这些结果将被应用于区分分区红心的幂集的某些子集的红心性。下面总结了在合适的分割假设下证明的主要结果。 - If $\kappa $ is a cardinal, $\epsilon < \kappa $ , ${mathrm {cof}}(\epsilon ) = \omega $ , $\kappa \rightarrow _* (\kappa )^{\epsilon \cdot \epsilon }_2$ and $\Phi ：[\kappa ]^\epsilon _* \rightarrow \mathrm {ON}$，那么 $\Phi $ 满足几乎无处不在的短长连续性属性：There is a club $C \subseteq \kappa $ and a $\delta < \epsilon $ so that for all $f,g \in [C]^\epsilon _*$ , if $f \upharpoonright \delta = g \upharpoonright \delta $ and $\sup (f) = \sup (g)$ , then $\Phi (f) = \Phi (g)$ . - 如果 $\kappa $ 是红心数，$\epsilon $ 是可数数，$\kappa \rightarrow _* (\kappa )^{\epsilon\cdot\epsilon}_2$ 成立，并且 $\Phi : [\kappa ]^\epsilon _* \rightarrow \mathrm {ON}$，那么 $\Phi $ 满足强的几乎无处不在的短长连续性属性：There is a club $C \subseteq \kappa $ and finitely many ordinals $\delta _0, ..., \delta _k leq \epsilon $ 这样对于 [C]^\epsilon _*$ 中的所有 $f,g , 如果对于所有 $0 \leq i \leq k$ , $\sup (f \upharpoonright \delta _i) = \sup (g \upharpoonright \delta _i)$ , 那么 $\Phi (f) = \Phi (g)$ 。 - 如果 $\kappa $ 满足 $\kappa \rightarrow _* (\kappa )^\kappa _2$ , $\epsilon \leq \kappa $ 和 $\Phi : [\kappa ]^\epsilon _* \rightarrow \mathrm {ON}$，那么 $\Phi $ 满足几乎无处不在的单调性属性：There is a club $C \subseteq \kappa $ so that for all $f,g \in [C]^\epsilon _*$ , if for all $\alpha < \epsilon $ , $f(\alpha ) \leq g(\alpha )$ , then $\Phi (f) \leq \Phi (g)$ . - 假设从属选择（$\mathsf {DC}$ ），${\omega _1}\rightarrow _* ({\omega _1})^{\omega _1}_2$ 以及 ${\omega _1}$ 的几乎无处不在的短长俱乐部均匀化原则成立。那么每个函数 $\Phi : [{\omega _1}]^{\omega _1}_* \rightarrow {\omega _1}$都满足关于闭合点的有限连续性：让 $\mathfrak {C}_f$ 成为 $\alpha < {\omega _1}$ 的俱乐部，使得 $\sup (f \upharpoonright \alpha ) = \alpha $ 。有一个俱乐部 $C \subseteq {\omega _1}$ 和有限多个函数 $\Upsilon _0, ..., Upsilon _{n -1} ：[C]^{\omega _1}_* \rightarrow {\omega _1}$，这样对于所有 $f \in [C]^{\omega _1}_*$ , 对于所有 $g \in [C]^{\omega _1}_*$，如果 $\mathfrak {C}_g = \mathfrak {C}_f$ 并且对于所有 $i <；n$ , $\sup (g \upharpoonright \Upsilon _i(f)) = \sup (f \upharpoonright \Upsilon _i(f))$ , 那么 $\Phi (g) = \Phi (f)$ 。 - 假设 $\kappa $ 满足 $\kappa \rightarrow _* (\kappa )^\epsilon _2$ for all $\epsilon < \kappa $ .对于所有$\chi < \kappa $ ，$[\kappa ]^{<\kappa }$不会注入到${}^\chi \mathrm {ON}$中，也就是$\chi $长度的序数序列的类中，因此，$|[\kappa ]^\chi|<|[\kappa ]^{<\kappa}|$也不会注入到${}^\chi \mathrm {ON}$中。因此，根据确定性公理 $(\mathsf {AD})$，当 $\kappa $ 是以下确定性弱或强分区红心数之一时，这两个红心数结果成立： ${\omega _1}$ , $\omega _2$ , $\boldsymbol {\delta }_n^1$ (for all $1 \leq n < \omega $ ) 和 $\boldsymbol {\delta }^2_1$ (另外假设 $\mathsf {DC}_{\mathbb {R}}$).

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来源期刊

Forum of Mathematics Sigma Mathematics-Statistics and Probability

CiteScore

1.90

自引率

5.90%

发文量

审稿时长

40 weeks

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