Online Activities 2-8 November
University of Wisconsin Logic Seminar
Time: Tuesday, November 3, 3:00pm CST (22:00 CET)
Speaker: Vera Fischer, University of Vienna
Title: Independent families in the countable and the uncountable
Abstract: Independent families on ω are families of infinite sets of integers with the property that for any two disjoint finite subfamilies A and B, the set ⋂ A \ ⋃ B is infinite. Of particular interest are the sets of the possible cardinalities of maximal independent families, which we refer to as the spectrum of independence. Even though we do have the tools to control the spectrum of independence at ω (at least to a large extent), there are many relevant questions regarding higher counterparts of independence in generalized Baire spaces, which remain wide open.
Information: Zoom Meeting ID: 970 9130 0913, Passcode: 926119
Helsinki Logic Seminar
Time: Wednesday, November 4, 12:15 Helsinki Time (11:15 CET)
Speaker: Ralf Schindler, University of Münster
Title: Martin’s Maximum^++ implies the P_max axiom (*).
Abstract: Forcing axioms spell out the dictum that if a statement can be forced, then it is already true. The P_max axiom (*) goes beyond that by claiming that if a statement is consistent, then it is already true. Here, the statement in question needs to come from a resticted class of statements, and “consistent” needs to mean “consistent in a strong sense.” It turns out that (*) is actually equivalent to a forcing axiom, and the proof is by showing that the (strong) consistency of certain theories gives rise to a corresponding notion of forcing producing a model of that theory. This is joint work with D. Asperó building upon earlier work of R. Jensen and (ultimately) Keisler’s “consistency properties.”
Information: Zoom, see the seminar webpage for login information.
Hebrew University-Bar Ilan University Set Theory seminar
Time: Wednesday, November 4, 14:00-16:00 Israel Time (13:00-15:00 CET)
Speaker: Yair Hayut, Hebrew University
Title: Higher Chang Conjecture
Abstract: In this talk I will present some results regarding the consistency strength of Higher variants of Chang’s Conjecture. I will start with the classical result by Silver of Chang’s Conjecture from $\omega_1$-Erdos cardinal. Then, I will give an upper bound for the consistency strength of $(\aleph_{\omega+1}, \aleph_{\omega}) –>>(\aleph_1, \aleph_0)$and $(\aleph_4, \aleph_3) –>> (\aleph_2, \aleph_1)$ (joint with Eskew)from supercompactness assumptions. If time permits, I will describe the strategy for obtaining a global result:(\kappa^+,\kappa) –>> (\mu^+, \mu)for all regular $\kappa$, and $\mu < \kappa$, and talk about the barriers that we face when trying to extend this result.
Information: Contact Menachem Magidor, Asaf Rinot or Omer Ben-Neria ahead of time for the zoom link.
Paris-Lyon Séminaire de Logique
Time: Wednesday, November 4, 16:00-17:00 CET
Speaker: Jeffrey Bergfalk, University of Vienna
Title: Set theory and strong homology: an overview
Abstract: Motivated by several recent advances, we will provide a research history of the main set-theoretic problems arising in the study of strong homology. We will presume no knowledge, in our audience, of the latter. The aforementioned advances close out a second major phase of research in this area, leaving just a few conspicuous last “first questions,” and our aim is to provide some context for engaging them. This research centers on multidimensional combinatorial phenomena generalizing the classical theme of \emph{nontrivial coherent families indexed by ωω}; its progress has involved an intriguing mix of classical (forcing axioms, iterations of large cardinal length) and novel (higher-dimensional Δ-systems, simplicial combinatorics) set-theoretic techniques.
Information: Zoom ID: 824 8220 9628; sign up for the email list, or contacter silvain.rideau@imj-prg.fr, for the password in advance.
Bristol Logic and Set Theory Seminar/Oxford Set Theory Seminar
Time: Wednesday, November 4, 16:00-17:30 UK time (17:00-18:30 CET)
Speaker: Mirna Džamonja, CNRS & Panthéon Sorbonne, Paris and Czech Academy of Sciences, Prague
Title: On Wide Aronszajn Trees
Abstract: Aronszajn trees are a staple of set theory, but there are applications where the requirement of all levels being countable is of no importance. This is the case in set-theoretic model theory, where trees of height and size ω1 but with no uncountable branches play an important role by being clocks of Ehrenfeucht–Fraïssé games that measure similarity of model of size ℵ1. We call such trees wide Aronszajn. In this context one can also compare trees T and T’ by saying that T weakly embeds into T’ if there is a function f that map T into T’ while preserving the strict order <_T. This order translates into the comparison of winning strategies for the isomorphism player, where any winning strategy for T’ translates into a winning strategy for T’. Hence it is natural to ask if there is a largest such tree, or as we would say, a universal tree for the class of wood Aronszajn trees with weak embeddings. It was known that there is no such a tree under CH, but in 1994 Mekler and Väänanen conjectured that there would be under MA(ω1).
In our upcoming JSL paper with Saharon Shelah we prove that this is not the case: under MA(ω1) there is no universal wide Aronszajn tree.
The talk will discuss that paper. The paper is available on the arxiv and on line at JSL in the preproof version doi: 10.1017/jsl.2020.42.
Information: For the Zoom access code, contact Samuel Adam-Day me@samadamday.com. Link: https://zoom.us/j/96803195711 (open 30 minutes before)
CUNY Logic Seminar (MOPA)
Time: Wednesday, November 4, 3pm New York time (21:00 CET)
Speaker: Victoria Gitman, CUNY
Title: A model of second-order arithmetic satisfying AC but not DC: Part II
Abstract: One of the strongest second-order arithmetic systems is full second-order arithmetic Z2 which asserts that every second-order formula (with any number of set quantifiers) defines a set. We can augment Z2 with choice principles such as the choice scheme and the dependent choice scheme. The Σ1n-choice scheme asserts for every Σ1n-formula φ(n,X) that if for every n, there is a set Xwitnessing φ(n,X), then there is a single set Z whose n-th slice Zn is a witness for φ(n,X). The Σ1n-dependent choice scheme asserts that every Σ1n-relation φ(X,Y) without terminal nodes has an infinite branch: there is a set Z such that φ(Zn,Zn+1) holds for all n. The system Z2 proves the Σ12-choice scheme and the Σ12-dependent choice scheme. The independence of Π12-choice scheme from Z2 follows by taking a model of Z2 whose sets are the reals of the Feferman-Levy model of ZF in which every ℵLn is countable and ℵLω is the first uncountable cardinal.
We construct a model of ZF+ACω whose reals give a model of Z2 together with the full choice scheme in which Π12-dependent choice fails. This result was first proved by Kanovei in 1979 and published in Russian. It was rediscovered by Sy Friedman and myself with a slightly simplified proof.
Information: The seminar will take place virtually. Please email Victoria Gitman (vgitman@nylogic.org) for the meeting id.
Caltech Logic Seminar
Time: Wednesday, November 4, 12:00 – 1:00pm Pacific time (22:00 CET)
Speaker: Anush Tserunyan, McGill University
Title: A backward ergodic theorem and its forward implications
Abstract: In the classical pointwise ergodic theorem for a probability measure preserving (pmp) transformation TT, one takes averages of a given integrable function over the intervals {x,T(x),T2(x),…,Tn(x)}{x,T(x),T2(x),…,Tn(x)} in front of the point xx. We prove a “backward” ergodic theorem for a countable-to-one pmp TT, where the averages are taken over subtrees of the graph of TT that are rooted at xx and lie behind xx (in the direction of T−1T−1). Surprisingly, this theorem yields forward ergodic theorems for countable groups, in particular, for pmp actions of finitely generated groups, where the averages are taken along set-theoretic (but backward) trees on the generating set. This strengthens Bufetov’s theorem from 2000, which was the leading result in this vein. This is joint work with Jenna Zomback.
Information: Zoom, please see the seminar webpage for login information.
Ghent-Leeds Virtual Logic Seminar
Time: Thursday, November 5, 15:00 CET
Speaker: Sandra Müller, University of Vienna
Title: Determinacy and inner models
Abstract: The study of inner models was initiated by Gödel’s analysis of the constructible universe L. Later, it became necessary to study canonical inner models with large cardinals, e.g. measurable cardinals, strong cardinals or Woodin cardinals, which were introduced by Jensen, Mitchell, Steel, and others. Around the same time, the study of infinite two-player games was driven forward by Martin’s proof of analytic determinacy from a measurable cardinal, Borel determinacy from ZFC, and Martin and Steel’s proof of levels of projective determinacy from Woodin cardinals with a measurable cardinal on top. First Woodin and later Neeman improved the result in the projective hierarchy by showing that in fact the existence of a countable iterable model, a mouse, with Woodin cardinals and a top measure suffices to prove determinacy in the projective hierarchy.
This opened up the possibility for an optimal result stating the equivalence between local determinacy hypotheses and the existence of mice in the projective hierarchy, just like the equivalence of analytic determinacy and the existence of X^# for every real X which was shown by Martin and Harrington in the 70’s. The existence of mice with Woodin cardinals and a top measure from levels of projective determinacy was shown by Woodin in the 90’s. Together with his earlier and Neeman’s results this establishes a tight connection between descriptive set theory in the projective hierarchy and inner model theory.
In this talk, we will outline some of the main results connecting determinacy hypotheses with the existence of mice with large cardinals and discuss a number of more recent results in this area, some of which are joint work with Juan Aguilera.
Information: Please contact Paul Shafer in advance to participate.
KGRC Research Seminar
Time: Thursday, November 5, 15:00 CET
Speaker: Omer Ben-Neria, Hebrew University
Title: On Continuous Tree-Like Scales and related properties of Internally Approachable structures
Abstract: In his PhD thesis, Luis Pereira isolated and developed several principles of singular cardinals that emerge from Shelah’s PCF theory; principles which involve properties of scales, such as the inexistence of continuous Tree-Like scales, and properties of internally approachable structures such as the Approachable Free Subset Property.
In the talk, we will discuss these principles and their relations, and present new results from a joint work with Dominik Adolf concerning their consistency and consistency strength.
Information: Talk via zoom.
Toronto Set Theory Seminar
Time: Friday, November 6, 1.30pm Toronto time (19:30 CET)
Speaker: Jonathan Schilhan, University of Vienna
Title: Definable maximal families of reals in forcing extensions
Abstract: Many types of combinatorial, algebraic or measure-theoretic
families of reals, such as mad families, Hamel bases or Vitali sets, can
be framed as maximal independent sets in analytic hypergraphs on Polish
spaces. Their existence is guaranteed by the Axiom of Choice, but
low-projective witnesses ($\mathbf{Delta}^1_2$) were only known to exist
in general in models of the form $L[a]$ for a real $a$. Our main result
is that, after a countable support iteration of Sacks forcing or for
example splitting forcing (a less known forcing adding splitting reals)
over L, every analytic hypergraph on a Polish space has a
$\mathbf{\Delta}^1_2$ maximal independent set. As a corollary, this
solves an open problem of Brendle, Fischer and Khomskii by providing a
model with a $\Pi^1_1$ mif (maximal independent family) while the
independence number $\mathfrak{i}$ is bigger than $\aleph_1$.
Information: Email Ivan Ongay Valverde ahead of time for the zoom link.
CUNY Set Theory Seminar
Time: Friday, November 6, 3pm New York time (21:00 CET)
Speaker: Ernest Schimmerling, Carnegie Mellon University
Title: Covering at limit cardinals of K
Abstract: Theorem (Mitchell and Schimmerling, submitted for publication) Assume there is no transitive class model of ZFC with a Woodin cardinal. Let ν be a singular ordinal such that ν>ω_2 and cf(ν)<|ν|. Suppose ν is a regular cardinal in K. Then ν is a measurable cardinal in K. Moreover, if cf(ν)>ω, then oK(ν)≥cf(ν).
I will say something intuitive and wildly incomplete but not misleading about the meaning of the theorem, how it is proved, and the history of results behind it.
Information: The seminar will take place virtually. Please email Victoria Gitman (vgitman@nylogic.org) for the meeting id.
