Abstract
We study the preservation of selective covering properties, including classic ones introduced by Menger, Hurewicz, Rothberger, Gerlits and Nagy, and others, under products with some major families of concentrated sets of reals.Our methods include the projection method introduced by the authors in an earlier work, as well as several new methods. Some special consequences of our main results are (definitions provided in the paper):. (1)Every product of a concentrated space with a Hurewicz S1(Γ, O) space satisfies S1(Γ, O). On the other hand, assuming the Continuum Hypothesis, for each Sierpiński set S there is a Luzin set L such that L×S can be mapped onto the real line by a Borel function.(2)Assuming Semifilter Trichotomy, every concentrated space is productively Menger and productively Rothberger.(3)Every scale set is productively Hurewicz, productively Menger, productively Scheepers, and productively Gerlits-Nagy.(4)Assuming d=א1, every productively Lindelöf space is productively Hurewicz, productively Menger, and productively Scheepers. A notorious open problem asks whether the additivity of Rothberger's property may be strictly greater than add(N), the additivity of the ideal of Lebesgue-null sets of reals. We obtain a positive answer, modulo the consistency of Semifilter Trichotomy (u<g) with cov(M)>א1.Our results improve upon and unify a number of results, established earlier by many authors.
| Original language | English |
|---|---|
| Pages (from-to) | 1034-1057 |
| Number of pages | 24 |
| Journal | Annals of Pure and Applied Logic |
| Volume | 165 |
| Issue number | 5 |
| DOIs | |
| State | Published - May 2014 |
Bibliographical note
Funding Information:Parts of the work reported here were carried out during two visits of the second named author at the Kurt Gödel Research Center . These visits were partially supported by FWF Grant M1244-N13 and by the Research Networking Programme New Frontiers of Infinity ( INFTY ), funded by the European Science Foundation. The second named author thanks the third named author for his kind hospitality, and the Kurt Gödel Research Center Director, researchers and staff for the excellent academic and friendly atmosphere. We thank the referee for proposing a stronger version of Lemma 2.1 .
Funding
Parts of the work reported here were carried out during two visits of the second named author at the Kurt Gödel Research Center . These visits were partially supported by FWF Grant M1244-N13 and by the Research Networking Programme New Frontiers of Infinity ( INFTY ), funded by the European Science Foundation. The second named author thanks the third named author for his kind hospitality, and the Kurt Gödel Research Center Director, researchers and staff for the excellent academic and friendly atmosphere. We thank the referee for proposing a stronger version of Lemma 2.1 .
| Funders | Funder number |
|---|---|
| INFTY | |
| Research Networking Programme New Frontiers of Infinity | |
| European Science Foundation | |
| Austrian Science Fund | M1244-N13 |
Keywords
- Gerlits-Nagy (*) property
- Gerlits-Nagy γ property
- Hurewicz property
- Menger property
- Product theory
- Productively Lindelöf
- Rothberger property
- Selection principles
- Special sets of real numbers