Simplified morass

In mathematics, a (κ,n)-morass is a specific structure M of "height" κ and "gap" n for any uncountable regular cardinal κ and natural number n  1.

The original definition and applications of gap-1 and higher gap (ordinary) morasses, invented by Ronald Jensen, are complicated ones, see eg.[1]

Velleman [2] defined much simpler structures for n = 1 and showed that the existence of gap-1 morasses is equivalent to the existence of gap-1 simplified morasses.

Roughly speaking: a (κ,1)-simplified morass M = < φ, F > contains a sequence φ = < φβ : β  κ > of ordinals such that φβ < κ for β < κ and φκ = κ+, and a double sequence F = < Fα,β : α < β  κ > where Fα,β are collections of monotone mappings from φα to φβ for α<β ≤  κ with specific (easy but important) conditions.

Velleman's clear definition can be found in,[3] where he also constructed (ω0,1) simplified morasses in ZFC. In [4] he gave similar simple definitions for gap-2 simplified morasses, and in [5] he constructed (ω0,2) simplified morasses in ZFC.

Higher gap simplified morasses for any n  1 were defined by Morgan [6] and Szalkai,.[7][8]

Roughly speaking: a (κ,n + 1)-simplified morass (of Szalkai) M = < M, F > contains a sequence M = < Mβ : β  κ > of (< κ,n)-simplified morass-like structures for β < κ , Mκ is a (κ+,n) -simplified morass, and a double sequence F = < Fα,β : α < β  κ > where Fα,β are collections of mappings from Mα to Mβ for α < β  κ with specific conditions.

Quagmires are similar, morass-like structures in set theory.[9]

References

  1. K. Devlin. Constructibility. Springer, Berlin, 1984.
  2. D. Velleman. Simplified Morasses, Journal of Symbolic Logic 49, No. 1 (1984), pp 257271.
  3. D. Velleman. Simplified Morasses, Journal of Symbolic Logic 49, No. 1 (1984), pp 257271.
  4. D. Velleman. Simplified Gap-2 Morasses, Annals of Pure and Applied Logic 34, (1987), pp 171–208.
  5. D. Velleman. Gap-2 Morasses of Height ω0, Journal of Symbolic Logic 52, (1987), pp 928–938.
  6. Ch. Morgan. The Equivalence of Morasses and Simplified Morasses in the Finite Gap Case, PhD.Thesis, Merton College, UK, 1989.
  7. I. Szalkai. Higher Gap Simplified Morasses and Combinatorial Applications, PhD-Thesis (in Hungarian), ELTE, Budapest, 1991. English abstract: http://math.uni-pannon.hu/~szalkai/Szalkai-1991d-MorassAbst-.pdf
  8. I. Szalkai. An Inductive Definition of Higher Gap Simplified Morasses, Publicationes Mathematicae Debrecen 58 (2001), pp 605–634. http://math.uni-pannon.hu/~szalkai/Szalkai-2001a-IndMorass.pdf
  9. Kanamori, Akihiro (1983). "Morasses in combinatorial set theory". In Mathias, A.R.D. Surveys in set theory. London Mathematical Society Lecture Note Series. 87. Cambridge: Cambridge University Press. pp. 167–196. ISBN 0-521-27733-7. Zbl 0525.03036.
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