Singular cardinals hypothesis

Singular cardinals hypothesis

In set theory, the singular cardinals hypothesis (SCH) arose from the question of whether the least cardinal number for which the generalized continuum hypothesis (GCH) might fail could be a singular cardinal.

According to Mitchell (1992), the Singular Cardinals Hypothesis is::If κ is any singular strong limit cardinal, then 2κ = κ+.Here, κ+ denotes the successor cardinal of κ.

Since SCH is a consequence of GCH which is known to be consistent with ZFC, SCH is consistent with ZFC. The negation of SCH has also been shown to be consistent with ZFC, if one assumes the existence of a sufficiently large cardinal number. In fact, by results of Moti Gitik, ZFC + the negation of SCH is equiconsistent with ZFC + the existence of a measurable cardinal kappa of Mitchell order kappa^{++} .

Another form of the SCH is the following statement::2cf(&kappa;) < &kappa; implies &kappa;cf(&kappa;) = &kappa;+,where cf denotes the cofinality function. Since whenever kappa is a singular strong limit cardinal, kappa^{cf(kappa)} = 2^kappa , this formulation is equivalent (over ZFC) to the formulation given above.

Silver proved that if &kappa; is singular with uncountable cofinality and 2&lambda; = &lambda;+ for all infinite cardinals &lambda; < &kappa;, then 2&kappa; = &kappa;+. Silver's original proof used generic ultrapowers. The following important fact follows from Silver's theorem: if the Singular Cardinals Hypothesis holds for all singular cardinals of countable cofinality, then it holds for all singular cardinals. In particular, then, if kappa is the least counterexample to the Singular Cardinals Hypothesis, then cf(kappa) = omega .

The negation of the Singular Cardinals Hypothesis is intimately related to violating the GCH at a measurable cardinal. A well-known result of Dana Scott is that if the GCH holds below a measurable cardinal kappa on a set of measure one--i.e., there is normal kappa -complete ultrafilter D on mathcal{P}(kappa) such that {alpha < kappa: 2^{alpha} = alpha^+}in D , then 2^kappa = kappa^+ . Starting with kappa a supercompact cardinal, Silver was able to produce a model of set theory in which kappa is measurable and in which 2^kappa > kappa^+ . Then, by applying Prikry forcing to the measurable kappa , one gets a model of set theory in which kappa is a strong limit cardinal of countable cofinality and in which 2^kappa > kappa^+ --a violation of the SCH. Gitik, building on work of Woodin, was able to replace the supercompact in Silver's proof with a measurable of Mitchell order kappa^{++} . That established an upper bound for the consistency strength of the failure of the SCH. Gitik again, using results of Inner model theory, was able to show that a measurable of Mitchell order kappa^{++} is also the lower bound for the consistency strength of the failure of SCH.

A wide variety of propositions imply SCH. As was noted above, GCH implies SCH. On the other hand, the Proper Forcing Axiom which implies 2^{aleph_0} = aleph_2 and hence is incompatible with GCH also implies SCH. Solovay showed that large cardinals almost imply SCH--in particular, if kappa is strongly compact cardinal, then the SCH holds above kappa . On the other hand, the non-existence of (inner models for) various large cardinals (below a measurable of Mitchell order kappa^{++} ) also imply SCH.

References

* T. Jech: [http://matwbn.icm.edu.pl/ksiazki/fm/fm81/fm8116.pdf Properties of the gimel function and a classification of singular cardinals] , "Fundamenta Mathematicae", 81(1974), 57-64.
* William J. Mitchell, "On the singular cardinal hypothesis," "Trans. Amer. Math. Soc.", volume 329, number 2, pages 507&ndash;530, 1992.
* Jason Aubrey, "The Singular Cardinals Problem" ( [http://www.math.lsa.umich.edu/vigre/Expositions/Aubrey.pdf PDF] ), VIGRE expository report, Department of Mathematics, University of Michigan.


Wikimedia Foundation. 2010.

Игры ⚽ Поможем решить контрольную работу

Look at other dictionaries:

  • Covering lemma — See also: Jensen s covering theorem In mathematics, under various anti large cardinal assumptions, one can prove the existence of the canonical inner model, called the Core Model, that is, in a sense, maximal and approximates the structure of V.… …   Wikipedia

  • Menachem Magidor — Professor Menachem Magidor in Jerusalem, December 2006 Born January 24, 1946 …   Wikipedia

  • List of unsolved problems in mathematics — This article lists some unsolved problems in mathematics. See individual articles for details and sources. Contents 1 Millennium Prize Problems 2 Other still unsolved problems 2.1 Additive number theory …   Wikipedia

  • List of mathematics articles (S) — NOTOC S S duality S matrix S plane S transform S unit S.O.S. Mathematics SA subgroup Saccheri quadrilateral Sacks spiral Sacred geometry Saddle node bifurcation Saddle point Saddle surface Sadleirian Professor of Pure Mathematics Safe prime Safe… …   Wikipedia

  • Proper forcing axiom — In the mathematical field of set theory, the proper forcing axiom ( PFA ) is a significant strengthening of Martin s axiom, where forcings with the countable chain condition (ccc) are replaced by proper forcings. Statement A forcing or partially… …   Wikipedia

  • SCH — may refer to:* Sydney Congress Hall, A Salvation Army Corps situated in Sydney, Australia * Sch (trigraph), the German letter for sh as in fish * Schenectady County Airport, a public airport in Schenectady County, New York * the Singular… …   Wikipedia

  • Easton's theorem — In set theory, Easton s theorem is a result on the possible cardinal numbers of powersets. W. B. harvtxt|Easton|1970 (extending a result of Robert M. Solovay) showed via forcing that : kappa < operatorname{cf}(2^kappa),and, for kappale lambda,,… …   Wikipedia

  • Forcing (mathematics) — For the use of forcing in recursion theory, see Forcing (recursion theory). In the mathematical discipline of set theory, forcing is a technique invented by Paul Cohen for proving consistency and independence results. It was first used, in 1963,… …   Wikipedia

  • Regular cardinal — In set theory, a regular cardinal is a cardinal number that is equal to its own cofinality. So, crudely speaking, a regular cardinal is one which cannot be broken into a smaller collection of smaller parts.(The situation is slightly more… …   Wikipedia

  • Suslin's problem — In mathematics, Suslin s problem is a question about totally ordered sets posed by Mikhail Yakovlevich Suslin in the early 1920s. [cite journal title=Problème 3 last= Souslin first=M. journal=Fundamenta Mathematicae volume=1 date=1920 pages=223]… …   Wikipedia

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”