Difference between revisions of "Wholeness axioms"
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to represent the [[elementary embedding]]. The base theory ZFC is | to represent the [[elementary embedding]]. The base theory ZFC is | ||
expressed only in the smaller language $\{\in\}$. Corazza's | expressed only in the smaller language $\{\in\}$. Corazza's | ||
− | original proposal, which we denote by | + | original proposal, which we denote by WA$_0$, asserts |
that $j$ is a nontrivial amenable elementary embedding | that $j$ is a nontrivial amenable elementary embedding | ||
from the universe to itself. Elementarity is expressed by | from the universe to itself. Elementarity is expressed by | ||
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the assertion that the separation axiom holds for | the assertion that the separation axiom holds for | ||
$\Delta_0$ formulae in the language $\{\in,j\}$. | $\Delta_0$ formulae in the language $\{\in,j\}$. | ||
− | The wholeness axiom WA, also denoted | + | The wholeness axiom WA, also denoted WA$_\infty$, asserts in addition that the |
full separation axiom holds in the language $\{\in,j\}$. | full separation axiom holds in the language $\{\in,j\}$. | ||
− | Those two axioms are the endpoints of the hierarchy of axioms | + | Those two axioms are the endpoints of the hierarchy of axioms WA$_n$, asserting increasing amounts of the separation axiom. |
− | Specifically, the wholeness axiom | + | Specifically, the wholeness axiom WA$_n$, where $n$ is |
amongst $0,1,\ldots,\infty$, consists of the following: | amongst $0,1,\ldots,\infty$, consists of the following: | ||
Revision as of 12:06, 11 November 2017
The wholeness axioms, proposed by Paul Corazza [1, 2], occupy a
high place in the upper stratosphere of the large cardinal
hierarchy, intended as slight weakenings of the Kunen inconsistency, but similar in spirit.
The wholeness axioms are formalized in the language $\{\in,j\}$, augmenting the usual language of set theory $\{\in\}$ with an additional unary function symbol $j$ to represent the elementary embedding. The base theory ZFC is expressed only in the smaller language $\{\in\}$. Corazza's original proposal, which we denote by WA$_0$, asserts that $j$ is a nontrivial amenable elementary embedding from the universe to itself. Elementarity is expressed by the scheme $\varphi(x)\iff\varphi(j(x))$, where $\varphi$ runs through the formulas of the usual language of set theory; nontriviality is expressed by the sentence $\exists x j(x)\not=x$; and amenability is simply the assertion that $j\upharpoonright A$ is a set for every set $A$. Amenability in this case is equivalent to the assertion that the separation axiom holds for $\Delta_0$ formulae in the language $\{\in,j\}$. The wholeness axiom WA, also denoted WA$_\infty$, asserts in addition that the full separation axiom holds in the language $\{\in,j\}$.
Those two axioms are the endpoints of the hierarchy of axioms WA$_n$, asserting increasing amounts of the separation axiom. Specifically, the wholeness axiom WA$_n$, where $n$ is amongst $0,1,\ldots,\infty$, consists of the following:
- (elementarity) All instances of $\varphi(x)\iff\varphi(j(x))$ for $\varphi$ in the language $\{\in,j\}$.
- (separation) All instances of the Separation Axiom for $\Sigma_n$ formulae in the full language $\{\in,j\}$.
- (nontriviality) The axiom $\exists x\,j(x)\not=x$.
Clearly, this resembles the Kunen inconsistency. What is missing from the wholeness axiom schemes, and what figures prominantly in Kunen's proof, are the instances of the replacement axiom in the full language with $j$. In particular, it is the replacement axiom in the language with $j$ that allows one to define the critical sequence $\langle \kappa_n\mid n\lt\omega\rangle$, where $\kappa_{n+1}=j(\kappa_n)$, which figures in all the proofs of the Kunen inconsistency. Thus, none of the proofs of the Kunen inconsistency can be carried out with WA, and indeed, in every model of WA the critical sequence is unbounded in the ordinals.
The hiearchy of wholeness axioms is strictly increasing in strength, if consistent. [3]
If $j:V_\lambda\to V_\lambda$ witnesses a rank into rank cardinal, then $\langle V_\lambda,\in,j\rangle$ is a model of the wholeness axiom.
If the wholeness axiom is consistent with ZFC, then it is consistent with ZFC+V=HOD.[3]
References
- Corazza, Paul. The Wholeness Axiom and Laver sequences. Annals of Pure and Applied Logic pp. 157--260, October, 2000. bibtex
- Corazza, Paul. The gap between ${\rm I}_3$ and the wholeness axiom. Fund Math 179(1):43--60, 2003. www DOI MR bibtex
- Hamkins, Joel David. The wholeness axioms and V=HOD. Arch Math Logic 40(1):1--8, 2001. www arχiv DOI MR bibtex