Topologies Determined by -Ideals on ω1

S. Broverman; J. Ginsburg; K. Kunen; F. D. Tall

doi:10.4153/CJM-1978-107-7

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σ-ideals (collections of sets which are closed under subset and countable union) are certainly important mathematically—consider first category sets, sets of measure zero, nonstationary sets, etc.—but aside from the observation that in certain spaces the first category σ-ideal is proper, cr-ideals have not been extensively studied by topologists. In this note we study a natural topology determined by a d-ideal, exploiting the interplay between the set-theoretic properties of the σ-ideal and the topological properties of the associated space.

References

1. Baumgartner, J. E., A new class of order types, Ann. Math. Logic f (1976), 187–222.Google Scholar

2. Baumgartner, J. E., Almost-disjoint sets, the dense set problem and the partition calculus, Ann. Math. Logic 10 (1976), 401–439.Google Scholar

3. Comfort, W. W., A survey of cardinal invariants, Gen. Top. Appl. 1 (1971), 163–199.Google Scholar

4. Corson, H. H., Normality in subsets of product spares, Am. J. Math. 81 (1959), 785–790.Google Scholar

5. Devlin, K. J., Variations on (), preprint.Google Scholar

6. Devlin, K. J. and Johnsbraten, H., The Souslin Problem, Lect. Notes Math. (Springer-Verlag, Berlin).Google Scholar

7. Gillman, L. and Jerison, M., Rings of continuous functions (van Nostrand, Princeton, 1960).Google Scholar

8. Hajnal, A. and Jnhasz, I., .1 consequence of Martin s Axiom, Res. Paper 110, Dept. of Math., Univ. of Calgary, Calgary, Alberta.Google Scholar

9. Jnhasz, I., Cardinal functions in topology, Mathematical Centre, Amsterdam, 1971.Google Scholar

10. Knnen, K., Combinatorics, in Handbook of mathematical logic North-Holland, Amsterdam, (1977), 371–401.Google Scholar

11. Ostaszewski, A. J., On countably compact, perfectly normal spaces, J. London Math. Soc. 2 U (1976), 505–516.Google Scholar

12. Shelah, S., Remarks on cardinal invariants in topology, Gen. Top. Appl. 7 (1977), 251–259.Google Scholar

13. Tall, F. D., The countable chain condition versus separability—applications of Martin's Axiom, Gen. Top. Appl. 4 (1974), 315–339.Google Scholar

14. Tall, F. D., Some applications of a generalized Martin's Axiom, submitted for publication.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Tall, Franklin D. 1980. Surveys in General Topology. p. 445.

Argyros, S. and Tsarpalias, A. 1982. Calibers of compact spaces. Transactions of the American Mathematical Society, Vol. 270, Issue. 1, p. 149.

WEISS, William 1984. Handbook of Set-Theoretic Topology. p. 827.

BAUMGARTNER, James E. 1984. Handbook of Set-Theoretic Topology. p. 913.

Hazewinkel, Michiel 1988. Encyclopaedia of Mathematics. p. 1.

Tall, Franklin D. 1994. Some applications of a generalized Martin's axiom. Topology and its Applications, Vol. 57, Issue. 2-3, p. 215.

Shtern, A. I. Efimov, B. A. Maslov, S. Yu. Dushskiĭ, V. A. Lizorkin, P. I. Bakhturin, Yu. A. Sabitov, I. Kh. Parshin, A. N. Prokhorov, A. V. Sarmanov, I. O. Solomentsev, E. D. Fedorchuk, V. V. Afanas’ev, V. V. Goluzina, E. G. Kuz’mina, G. V. Sazonov, V. V. Proskuryakov, I. V. Arkhangel’skiĭ, A. V. Khvedelidze, B. V. Golubov, B. I. Telyakovskiĭ, S. A. Chuyanov, V. A. Plisko, V. E. Modenov, P. S. Ivanov, A. B. Fedenko, A. S. Popov, V. L. Chirka, E. M. Zhelobenko, D. P. Vil’yams, N. N. Chernavskiĭ, A. V. Ivanova, O. A. Meshcheryakov, G. A. Pashkovskiĭ, V. I. Sokolov, D. D. Palyutin, E. A. Tsalenko, M. Sh. Anosov, D. V. Skvortsov, V. A. Eleev, V. A. Kudryavtsev, L. D. Nakhushev, A. M. Millionshchikov, V. M. Soldatov, A. P. Pospelov, V. V. Shikin, E. V. Kuz’min, E. N. Anosov, D. B. Nikol’skiĭ, N. K. Sklyarenko, E. G. Baladze, D. O. Malygin, S. N. Skornyakov, L. A. Prokhorov, Yu. V. Onishchik, A. L. Bokut’, L. A. Andreev, A. F. Sibirskiĭ, K. S. Fofanova, T. S. Sidorov, L. A. Volkov, I. I. Kharshiladze, A. F. Dobrushin, R. L. Prelov, V. V. Gaĭsaryan, S. S. Myshkis, A. D. Kvasnikov, I. A. Leĭtes, D. A. Tanana, B. P. Shevrin, L. N. Komlenko, Yu. V. Vakhania, N. N. Konyushkov, A. A. Pigolkina, T. S. Suetin, P. K. Alekseevskiĭ, D. V. Subbotin, Yu. N. Rozov, N. Kh. Stepanov, S. A. Bityutskov, V. I. Lebedev, V. I. Mysovskikh, I. P. Vlasov, L. P. Lavrik, A. F. Rumyantsev, V. V. Bryuno, A. D. Nikulin, M. S. Kuz’min, L. V. Zalgaller, V. A. Kulikov, Val. S. Korneĭchuk, N. P. Motornyĭ, V. P. Maksimov, Yu. D. Dragalin, A. G. Adyan, S. I. Karatsuba, A. A. Mityuk, I. P. Borisenko, A. A. Chebotarev, G. A. Sachkov, V. N. Vapnyarskiĭ, I. B. Dolgachev, I. V. Iskovskikh, V. A. Sobolev, V. I. Ponomarev, V. I. Mal’tsev, A. A. Danilov, V. I. Shapkin, A. F. Ryzhkov, V. V. Gavrilov, V. I. Govorov, V. E. Kirillov, A. A. Mikhaĭlova, A. S. Vorob’ev, N. N. Stolyarov, G. K. Rudyak, Yu. B. Farber, M. Sh. Kabatyanskiĭ, G. A. Markov, Al. A. Levenshteĭn, V. I. Lel’chuk, T. S. Yanushauskas, A. I. Remeslennikov, V. N. Bredikhin, B. M. Ponomarev, D. A. Mikhalev, A. V. Khelemskiĭ, A. Ya. Vaĭnikko, G. M. Soltan, P. S. Revyahn, A. M. Novikov, S. P. Shabunin, L. V. Minios, R. A. Gorin, E. A. Smirnov, D. M. Sirota, S. I. Pasynkov, B. A. Kaz’min, Yu. A. Tonkov, E. L. Tankeev, S. G. Millonshchikov, V. M. Terekhin, A. P. Ushakov, N. G. Ikramov, Kh. D. Kadets, M. I. Arkhangelskn, A. V. Reĭzin, L. E. Merzlyakov, Yu. I. Aleksandrov, P. S. Grishin, V. N. Kim, G. D. Voĭtsekhovskiĭ, M. I. Malakhovskiĭ, V. S. Kuzyurin, N. N. Rozenberg, G. Salomaa, A. Kudravtsev, L. D. Lavrov, I. A. Taĭmanov, A. D. Nagornyĭ, N. M. Kushner, B. A. Yanenko, N. N. Tikhonov, A. N. Nepomnyashchiĭ, V. A. Rogozin, B. A. Ushakov, V. G. Vulikh, B. Z. Linnik, Yu. V. Khalfina, N. M. Aĭvazyan, S. A. Chistova, E. A. Lumiste, Ü. Bushmanova, G. V. Bazylev, V. T. Dolzhenko, E. P. Tamrazov, P. M. Malakhovskĭ, V. S. Platonov, V. P. Lukashenko, T. P. Tikhomirov, V. M. Sobolev, S. K. Malykhin, V. I. Polivanov, M. K. Mints, G. E. Kupradze, V. D. Fryazinov, I. V. Karpova, N. A. Filippov, A. F. Ivanov, L. D. Shishmarev, I. A. Davidenko, D. F. Nechaev, V. I. Efimov, A. V. Vladimirov, V. S. Zambakhidze, L. G. Reveryuk, N. V. Iokhvidov, I. S. Tolpygo, A. K. Kreĭn, S. G. Yablonskiĭ, S. V. Krylov, N. V. Shiryaev, A. N. Yushkevich, A. A. Minlos, R. A. Aleksandrov, I. A. Dyubin, G. N. Karmanov, V. G. Burago, Yu. D. Kokorin, A. I. Kopytov, V. M. Pogorelov, A. V. Brychkov, Yu. A. Prudnikov, A. P. Sobolev, A. I. and Vasil’ev, F. P. 1995. Encyclopaedia of Mathematics. p. 489.

Fuchino, Sakaé Shelah, Saharon and Soukup, Lajos 1997. Sticks and clubs. Annals of Pure and Applied Logic, Vol. 90, Issue. 1-3, p. 57.

YORIOKA, Teruyuki 2005. Combinatorial principles on $\bm{\omega_1}$, cardinal invariants of the meager ideal and destructible gaps. Journal of the Mathematical Society of Japan, Vol. 57, Issue. 4,

Brendle, Jörg 2006. Cardinal invariants of the continuum and combinatorics on uncountable cardinals. Annals of Pure and Applied Logic, Vol. 144, Issue. 1-3, p. 43.

Mildenberger, Heike 2010. Finding generic filters by playing games. Archive for Mathematical Logic, Vol. 49, Issue. 1, p. 91.

Mildenberger, Heike 2011. The club principle and the distributivity number. The Journal of Symbolic Logic, Vol. 76, Issue. 1, p. 34.

LAMBIE-HANSON, Chris and WEINERT, Thilo 2019. Partitioning subsets of generalised scattered orders. Journal of the Mathematical Society of Japan, Vol. 71, Issue. 1,

Chen, William and Galgon, Geoff 2019. Antichains, the stick principle, and a matching number. Topology and its Applications, Vol. 256, Issue. , p. 73.

Raghavan, Dilip 2020. The density zero ideal and the splitting number. Annals of Pure and Applied Logic, Vol. 171, Issue. 7, p. 102807.

Chen, William Garti, Shimon and Weinert, Thilo 2020. Cardinal characteristics of the continuum and partitions. Israel Journal of Mathematics, Vol. 235, Issue. 1, p. 13.

Rinot, Assaf and Zhang, Jing 2023. Strongest Transformations. Combinatorica, Vol. 43, Issue. 1, p. 149.

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Topologies Determined by -Ideals on ω1

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