Set Theory Talks

Nankai Logic Colloquium

6/1/2023 1:13:58

Hello everyone,

This week our weekly Nankai Logic Colloquium is going to be in the afternoon.

Our speaker this week will be Dominik Kwietniak from Jagiellonian University. This talk is going to take place this Friday, June 2nd, from 4pm to 5pm(UTC+8, Beijing time).

Title: An anti-classification theorem for the topological conjugacy
problem for Cantor minimal systems

Abstract:
The isomorphism problem in dynamics  dates back to a question of von
Neumann from 1932: Is it possible to classify (in some reasonable
sense) the ergodic measure-preserving diffeomorphisms of a compact
manifold up to isomorphism? We would like to study a similar problem:
let C be the Cantor set and let Min(C) stand for the space of all
minimal homeomorphisms of the Cantor set. Recall that a Cantor set
homeomorphism T is in Min(C) if every orbit of T is dense in C.  We
say that S and T in Min(C) are topologically conjugate if there exists
a Cantor set homeomorphism h such that Sh=hT. We prove an
anti-classification result showing that even for very liberal
interpretations of what a "reasonable'' classification scheme might
be, a classification of minimal Cantor set homeomorphism up to
topological conjugacy is impossible. We see is as a consequence of the
following: we prove that the topological conjugacy relation of Cantor
minimal systems TopConj treated as a subset of Min(C) x Min(C) is
complete analytic. In particular, TopConj is a non-Borel subset of
Min(C) x Min(C). Roughly speaking, it means that it is impossible to
tell if two minimal Cantor set homeomorphisms are topologically
conjugate  using only a countable amount of information and
computation.

Our result is proved by applying a Foreman-Rudolph-Weiss-type
construction used for an anti-classification theorem for ergodic
automorphisms of the Lebesgue space. We find a continuous map F from
the space of all subtrees over non-negative integers N with
arbitrarily long branches into the class of minimal homeomorphisms of
the Cantor set. Furthermore, F is a reduction, which means that a tree
T is ill-founded if and only if F(T) is topologically conjugate to its
inverse. Since the set of ill-founded trees with arbitrarily long
branches is a well-known example of a complete analytic set, we see
that it is essentially impossible to classify which minimal Cantor set
homeomorphisms are topologically conjugate to their inverses.

This is joint work with Konrad Deka, Felipe García-Ramos, Kosma
Kapsrzak, Philipp Kunde (all from the Jagiellonian University in
Kraków).

__________________________________________________________________________________________________

Title ：The 31st Nankai Logic Colloquium --Dominik Kwietniak

Time ：16:00pm, Jun. 2, 2023(Beijing Time)

Zoom Number ： 876 3579 6414

Passcode ： 318535

Link ：https://us02web.zoom.us/j/87635796414?pwd=M1hZSEFvL0FzMUZQcHVCQ0w2QlhtUT09

_____________________________________________________________________

Best wishes,

Ming Xiao

Set Theory and Topology Seminar 6.06.2023 Piotr Szewczak (UKSW)

Wrocław Set Theory Seminar

5/31/2023 0:39:00

I am happy to announce that at the seminar in Set Theory and Topology (on Tuesday 06.06.2023 at 17:15 in room A.4.1 C-19 (Wrocław University of Science and Technology) the lecture:

"Totally imperfect Menger sets"

will be presented by

Piotr Szewczak (UKSW)

Feel free to spread this information among Your colleagues.

I'm looking forward to seeing You

Szymon Żeberski

(on behalf of the organizers, i.e. Piotr Borodulin-Nadzieja, Paweł Krupski, Aleksandra Kwiatkowska, Grzegorz Plebanek, Robert Rałowski and myself)

Abstract

A set of reals X is Menger if for any countable sequence of open covers of X one can pick finitely many elements from every cover in the sequence such that the chosen sets cover X. Any set of reals of cardinality smaller than the dominating number d is Menger and there is a non-Menger set of cardinality d. By the result of Bartoszyński and Tsaban, in ZFC, there is a totally imperfect (with no copy of the Cantor set inside) Menger set of cardinality d. We solve a problem, whether there is such a set of cardinality continuum. Using an iterated Sacks forcing and topological games we prove that it is consistent with ZFC that d<c and each totally imperfect Meneger set has cardinality less or equal than d.
This is a joint work with Valentin Haberl and Lyubomyr Zdomskyy.
The research was funded by the National Science Centre, Poland and the Austrian Science Found under the Weave-UNISONO call in the Weave programme, project: Set-theoretic aspects of topological selections 2021/03/Y/ST1/00122.

About 15 minutes before the seminar we invite you for coffee and a chat to social room A.4.1.A in C-19.

*****************************************************************************************************************

Our webpages:
https://settheory.pwr.edu.pl/
http://www.math.uni.wroc.pl/seminarium/topologia

Nankai Logic Colloquium

5/24/2023 8:16:36

Hello everyone,

This week our weekly Nankai Logic Colloquium is going to be in the afternoon.

Our speaker this week will be Liuzhen Wu from the Academy of Mathematical and Systems Sciences, CAS. This talk is going to take place this Friday, May 26th, from 4pm to 5pm(UTC+8, Beijing time).

title: Definability of the nonstationary ideal on $\omega_1$

abstract: The nonstationary ideals are natural nontrivial ideals defined on all uncountable regular cardinals. In this talk, various aspects of definability of nonstationary ideals on uncountable cardinals are explored. The main focus is the definability of nonstationary ideal on $\omega_1$ ($NS_{\omega_1}$ for short) in some canonical models of set theory. In particular, under MM or (*) axiom, $NS_{\omega_1}$ is not $\Pi_1$ definable. On the other hand, it is consistent that in some model of $PFA$, $NS_{\omega_1}$ is $\Pi_1$ definable. This is based on the accumulated work of Aspero, Hoffelner, Larson, Schindler, Sun, Wu.

__________________________________________________________________________________________________

Title ： The 30th Nankai Logic Colloquium --Liuzhen Wu

Time ：16:00pm, May. 26, 2023 (Beijing Time)

Zoom Number ： 851 5601 8255

Passcode ： 136440

Link ：https://us02web.zoom.us/j/85156018255?pwd=UjFUb3cwT0poY0JYakRub2kyNGdSdz09

_____________________________________________________________________

Best wishes,

Ming Xiao

Set Theory and Topology Seminar 30.05.2023 Zbigniew Lipecki

Wrocław Set Theory Seminar

5/24/2023 0:17:00

I am happy to announce that at the seminar in Set Theory and Topology (on Tuesday 30.05.2023 at 17:15 in room A.4.1 C-19 (Wrocław University of Science and Technology) the lecture:

"How noncompact is the space of Lebesgue measurable functions?"

will be presented by

Zbigniew Lipecki (IM PAN)

Feel free to spread this information among Your colleagues.

I'm looking forward to seeing You

Szymon Żeberski

(on behalf of the organizers, i.e. Piotr Borodulin-Nadzieja, Paweł Krupski, Aleksandra Kwiatkowska, Grzegorz Plebanek, Robert Rałowski and myself)

Abstract

The space in question is the space $\textfrak M$ of Lebesgue measurable subsets of the unit interval equipped with the usual Fr'echet--Nikodym (semi)metric. We show that there exists a sequence of elements of $\textfrak M$ such that their mutual distances are > 1/2. It seems to be an open problem whether "1/2" can be replaced here by a bigger constant C. We show that C must be smaller than 9/14. Moreover, we present a version of the problem in terms of binary codes.

About 15 minutes before the seminar we invite you for coffee and a chat to social room A.4.1.A in C-19.

*****************************************************************************************************************

Our webpages:
https://settheory.pwr.edu.pl/
http://www.math.uni.wroc.pl/seminarium/topologia

Charla de Justin Moore en el Seminario Colombo Mexicano de Teoría de Conjuntos

Seminario Colombo Mexicano de Teoría de Conjuntos

5/22/2023 17:22:29

Seminario Colombo Mexicano de Teoría de Conjuntos

May 25

4:00 p.m. - 5:00 p.m. (Colombia time)

Large minimal non-$\sigma$-scattered orders

Justin T. Moore

Cornell University

Abstract. We present new constructions of linear orders which are minimal with respect to being non-$\sigma$-scattered. Specifically, we will show that Jensen's diamond principle implies that there is a minimal Countryman line, answering a question of Baumgartner. We will also construct the first consistent examples of minimal non-$\sigma$-scattered linear order of cardinality greater than $\aleph_1$. In fact, this can be achieved at any successor cardinal $\kappa^+$, both via forcing constructions and via axiomatic principles which hold in Gödel's Constructible Universe. These linear order of cardinality $\kappa^+$ have the property that their square is the union of $\kappa$-many chains.

This is joint work with James Cummings and Todd Eisworth.

Zoom meeting information.

Meeting ID: 856 1882 0721

Passcode: 123456

https://cuaieed-unam.zoom.us/j/85618820721

This Week in Logic at CUNY

5/21/2023 22:29:00

Hi everyone,

This will be the final edition of "This Week in Logic" for the Spring 2023 semester. Regular mailings will resume in late August. We will send out special editions for events over the summer - please send me your notifications.

Be well,

Jonas

This Week in Logic at CUNY:

- - - - Monday, May 22, 2023 - - - -

- - - - Tuesday, May 23, 2023 - - - -

MAMLS Spring Fling at Rutgers University
The MAMLS Spring Fling meeting will take place May 23-26 at Rutgers University, New Brunswick, New Jersey. More information about the meeting can be found on its website (https://sites.math.rutgers.edu/~fc327/MAMLS2023/index.html). Registration is free and everyone who plans to attend is encouraged to register for logistics purposes.

- - - - Wednesday, May 24, 2023 - - - -

- - - - Thursday, May 25, 2023 - - - -

- - - - Friday, May 26, 2023 - - - -

- - - - Other Logic News - - - -

- - - - Web Site - - - -

Find us on the web at: nylogic.github.io
(site designed, built & maintained by Victoria Gitman)

-------- ADMINISTRIVIA --------

To subscribe/unsubscribe to this list, please email your request to jreitz@citytech.cuny.edu.

If you have a logic-related event that you would like included in future mailings, please email jreitz@citytech.cuny.edu.

(KGRC) four talks, long and short

Kurt Godel Research Center

5/18/2023 16:39:33

The KGRC welcomes as guests: Clifton Ealy (host: Matthias Aschenbrenner) visits the KGRC until August 15. Thilo Weinert (host: Vera Fischer) visits the KGRC from May 10 to June 30. Sergei Starchenko (host: Matthias Aschenbrenner) visits the KGRC from May 13 to May 27 and gives a talk, see below. Aaron Anderson (host: Matthias Aschenbrenner) visits the KGRC from May 23 to May 24 and gives a talk, see below. Fabian Kaak (host: Vera Fischer) visits the KGRC from May 23 to May 26 and gives a short talk, see below. Nigel Pynn-Coates (host: Matthias Aschenbrenner) visits the KGRC from June 2 to June 10. Ido Feldman (host: Miguel Moreno) visits the KGRC from June 11 to June 17 and gives a talk, details to be announced at a later time. Jaroslav Šupina (host: Vera Fischer) visits the KGRC from June 18 to June 24 and gives a talk, details to be announced at a later time. David Schrittesser (host: Vera Fischer) visits the KGRC from June 30 to September 14. * * * Model Theory Seminar Kurt Gödel Research Center Wednesday, May 24 "Distality in Continuous Logic" Aaron Anderson (University of California, LA, US) We examine distal theories and structures in the context of continuous logic, providing several equivalent definitions. By studying the combinatorics of fuzzy VC-classes, we find continuous versions of (strong) honest definitions and distal cell decompositions. By studying generically stable Keisler measures in continuous logic, we apply the theory of continuous distality to analytic versions of graph regularity. Time and Place Talk at 3:00pm Universität Wien Institut für Mathematik Kolingasse 14-16 1090 Wien 1st floor Seminar room 10 Please direct any questions about this talk to matthias.aschenbrenner@univie.ac.at. * * * Set Theory Seminar Kurt Gödel Research Center Thursday, May 25 This installment of the seminar will see two shorter talks: "Set theory of a Suslin line" Fabian Kaak (Universität Kiel, DE) A Suslin line is a linear ordering, which is in some way quite similar to the real line. We will discuss in what ways the set theory of the real line can be adapted to a Suslin line. We give a characterization of Borel sets of the Suslin line, look at a few cardinal characteristics and play games on a Suslin tree. ... as well as ... "Strong Measure Zero Sets on the Higher Cantor Space" Nick Chapman (TU Wien) As introduced by Borel in the early 20th century, a set of reals is strong measure zero if it can be covered by a sequence of intervals whose lengths shrink arbitrarily fast. This notion admits a natural generalisation in the context of the higher Cantor space $2^\kappa$. However, contrasting the situation on $2^\omega$, much about the behaviour of strong measure zero sets on $2^\kappa$ is unknown; in particular, the consistency of Borel's Conjecture in this context ("A set is strong measure zero iff it has size at most $\kappa$") is still open. We shall discuss a statement closely related to the Borel Conjecture: for $\kappa$ inaccessible we will sketch the construction of a model of $|2^\kappa| = \kappa^{++}$ and "$\forall X \subseteq 2^\kappa: X \text{ is strong measure zero iff } |X| \leq \kappa^+$", focusing on some of the difficulties one runs into when generalising proof strategies from the countable case. Time permitting, we will also briefly touch on Halko's notion of stationary strong measure zero sets. The content of this talk is extracted from my Master thesis and is based on earlier work by Johannes Schürz. Time and Place Both talks, one after the other, first talk at 11:30am, in hybrid mode: on-site as well as via Zoom Universität Wien Institut für Mathematik Kolingasse 14-16 1090 Wien 1st floor Seminar room 10 Zoom: If you need the Zoom data and have not received the meeting link by the day before the talk, please contact richard.springer@univie.ac.at! Please direct any other questions about these two talks to vera.fischer@univie.ac.at. * * * Logic Colloquium Kurt Gödel Research Center Thursday, May 25 "On Hausdorff limits of images of o-minimal families in real tori" Sergei Starchenko (University of Notre Dame, US) Let $\{ X_s \colon x\in S \}$ be a family of subsets of ${\mathbb R}^n$ definable in some o-minimal expansion of the real field. Let $\Gamma \subseteq {\mathbb R}^n$ be a lattice and $\pi \colon {\mathbb R}^n/\Gamma \to \mathbb T$ be the quotient map. In a series of papers (published and unpublished) together with Y.Peterzil we considered Hausdorff limits of the family $\{ \pi(X_s) \colon s\in S\}$ and provided their description. In this talk I describe model theoretic tools used in the description. Talk at 3:00pm in hybrid mode: on-site as well as via Zoom Universität Wien Institut für Mathematik Oskar-Morgenstern-Platz 1 1090 Wien 2nd floor room HS 11 Zoom: If you need the Zoom data and have not received the meeting link by the day before the talk, please contact richard.springer@univie.ac.at! Please direct any other questions about this talk to vera.fischer@univie.ac.at.

Set Theory and Topology Seminar 23.05.2023 Barnabas Farkas

Wrocław Set Theory Seminar

5/17/2023 8:51:40

I am happy to announce that at the seminar in Set Theory and Topology (on Tuesday 23.04.2023 at 17:15 in room A.4.1 C-19 (Wrocław University of Science and Technology) the lecture:

"A tool to avoid some technical forcing arguments when working with the Hechler forcing"

will be presented by

Barnabas Farkas (TU Wien)

Feel free to spread this information among Your colleagues.

I'm looking forward to seeing You

Szymon Żeberski

(on behalf of the organizers, i.e. Piotr Borodulin-Nadzieja, Paweł Krupski, Aleksandra Kwiatkowska, Grzegorz Plebanek, Robert Rałowski and myself)

Abstract

I'm going to present that virtually every result saying that finite support iterations of the Hechler forcing preserve a cardinal invariant being small and its dual being large can be reduced to a single preservation theorem. In other words, this theorem eliminates the technical forcing arguments from the proofs of these results and reduces them to easy coding exercises.

About 15 minutes before the seminar we invite you for coffee and a chat to social room A.4.1.A in C-19.

*****************************************************************************************************************

Our webpages:
https://settheory.pwr.edu.pl/
http://www.math.uni.wroc.pl/seminarium/topologia

Charla de Alfredo Zaragoza en el Seminario Colombo Mexicano de Teoría de Conjuntos

Seminario Colombo Mexicano de Teoría de Conjuntos

5/16/2023 10:29:24

Seminario Colombo Mexicano de Teoría de Conjuntos

Mayo 18

4:00 p.m. - 5:00 p.m. (hora de Colombia)

Algunos ejemplos de espacios topológicos tales que dim(X) = dim(K(X)) = 1

Alfredo Zaragoza

Universidad Michoacana de San Nicolás de Hidalgo

Resumen. En general, si tenemos un espacio topológico X de dimensión uno, la dimensión de su hiperespacio de subconjuntos compactos K(X) con la topología de Vietoris no es finita. En esta plática presentamos varios ejemplos de espacios topológicos X de dimensión uno tales que la dimensión de su hiperespacio K(X) también es uno.

Zoom meeting information.

Meeting ID: 856 1882 0721

Passcode: 123456

https://cuaieed-unam.zoom.us/j/85618820721

Cross-Alps Logic Seminar (speaker: Jacques Duparc)

Cross-Alps Logic Seminar

5/15/2023 15:26:08

On Friday 19.05.2023 at 16.00

Jacques Duparc (Université de Lausanne)

will give a talk on

The Wadge order on the Cantor Space and on the Scott Domain

Please refer to the usual webpage of our LogicGroup for more details and the abstract of the talk.

The seminar will be held remotely through Webex. Please write to vincenzo.dimonte [at] uniud [dot] it for the link to the event.

The Cross-Alps Logic Seminar is co-organized by the logic groups of Genoa, Lausanne, Turin and Udine as part of our collaboration in the project PRIN 2017 'Mathematical logic: models, sets, computability'.

All the best,
Vincenzo

Nankai Logic Colloquium

5/15/2023 10:46:50

Hello everyone,

This week our weekly Nankai Logic Colloquium is going to be in the afternoon.

Our speaker this week will be Guozhen Shen from Wuhan University. This talk is going to take place this Friday, May 19th, from 4pm to 5pm(UTC+8, Beijing time).

Title: A surjection from square onto power

Abstract: In 1892, Cantor proved that, for all sets $A$, there are no bijections between $A$ and the power set of $A$. Cantor's construction is so explicit that it can be carried out in ZF (the Zermelo--Fraenkel set theory without the axiom of choice). In 1906, by virtue of Zermelo's well-ordering theorem, Hessenberg proved the idempotency theorem, which states that there is a bijection between $A$ and the square of $A$ for all infinite sets $A$. (Another proof of the idempotency theorem was given by Zorn in 1944 using Zorn's lemma.) In 1924, Tarski proved that the idempotency theorem is in fact equivalent to the axiom of choice. On the other hand, in 1954, Specker proved in ZF a surprising generalization of Cantor's theorem, which states that, for all infinite sets $A$, there are no injections from the power set of $A$ into the square of $A$. It is then natural to ask whether it is provable in ZF that, for all infinite sets $A$, there are no surjections from the square of $A$ onto the power set of $A$. This question is known as the dual Specker problem and was proposed by Truss in 1973. In this talk, we give a negative answer to this question; that is, the existence of an infinite set $A$ such that the square of $A$ maps onto the power set of $A$ is consistent with ZF. This is joint work with Yinhe Peng and Liuzhen Wu.

__________________________________________________________________________________________________

Title ：The 29th Nankai Logic Colloquium --Guozhen Shen

Time ：16:00pm, May. 19, 2023 (Beijing Time)

Zoom Number ：856 2849 0880

Passcode ： 073635

Link ：https://us02web.zoom.us/j/85628490880?pwd=dTBrV0NLc0l1bmFTY1RHR0d0TUNDZz09

_____________________________________________________________________

Best wishes,

Ming Xiao

This Week in Logic at CUNY

5/14/2023 22:43:00

This Week in Logic at CUNY:

- - - - Monday, May 15, 2023 - - - -

Logic and Metaphysics Workshop
Date: Monday, May 15, 4.15-6.15pm (NY time), GC 9206
NOTE: Meetings this semester are in person only (no zoom)
For meeting information, please sign up for our mailing list at https://logic.commons.gc.cuny.edu/about/

Maciej Sendłak (Warsaw).
Title: Explanatory realism and counterfactuals

Abstract: In my talk, I want to propose a novel approach to the question of counterfactuals. This is grounded in two assumptions, imported from the philosophy of science. The first one has it that to explain a phenomenon is to show how it depends on something else. The second states that the correct explanation ought to be contrastive. This means that a good explanation justifies the occurrence of a phenomenon and – at the same time – excludes occurrence of some other states of affairs. I am going to argue that – together with the assumption that conditionals express a dependence relation between A and C – the above gives ground for analysis of counterfactuals. According to this proposal: “A>C” is true at the world of evaluation iff there is a relation of dependence that hold between referents of A and C, and the same relation of dependence holds in the world of evaluation.

- - - - Tuesday, May 16, 2023 - - - -

- - - - Wednesday, May 17, 2023 - - - -

The New York City Category Theory Seminar
Department of Computer Science
Department of Mathematics
The Graduate Center of The City University of New York

URL: http://www.sci.brooklyn.cuny.edu/~noson/Seminar/index.html

Speaker: Arthur Parzygnat, Nagoya University.

Date and Time: Wednesday May 17, 2023, 7:00 - 8:30 PM. IN PERSON TALK.

Title: Inferring the past and using category theory to define retrodiction.

Abstract: Classical retrodiction is the act of inferring the past based on knowledge of the present. The primary example is given by Bayes' rule P(y|x) P(x) = P(x|y) P(y), where we use prior information, conditional probabilities, and new evidence to update our belief of the state of some system. The question of how to extend this idea to quantum systems has been debated for many years. In this talk, I will lay down precise axioms for (classical and quantum) retrodiction using category theory. Among a variety of proposals for quantum retrodiction used in settings such as thermodynamics and the black hole information paradox, only one satisfies these categorical axioms. Towards the end of my talk, I will state what I believe is the main open question for retrodiction, formalized precisely for the first time. This work is based on the preprint https://arxiv.org/abs/2210.13531 and is joint work with Francesco Buscemi.

- - - - Thursday, May 18, 2023 - - - -

- - - - Friday, May 19, 2023 - - - -

Set Theory Seminar
CUNY Graduate Center
Friday, May 19, 12:30pm NY time
Virtual: Please email Victoria Gitman (vgitman@gmail.com) for meeting id.

Miha Habič, Bard College at Simon's Rock
Some old and new results on nonamalgamable forcing extensions

Fixing some countable transitive model of set theory, we can consider its generic multiverse, the family of all models obtainable from by taking any sequence of forcing extensions and ground models. There is an attractive similarity between the generic multiverse and the Turing degrees, but the multiverse has the drawback (or feature?) that it contains nonamalgamable models, that is, models with no common upper bound, as was observed by several people, going back to at least Mostowski. In joint work with Hamkins, Klausner, Verner, and Williams in 2019, we studied the order-theoretic properties of the generic multiverse and, among other results, gave a characterization of which partial orders embed nicely into the multiverse. I will present our results in the simplest case of Cohen forcing, as well as existing generalizations to wide forcing, and some new results on non-Cohen ccc forcings.

Next Week in Logic at CUNY:

- - - - Monday, May 22, 2023 - - - -

- - - - Tuesday, May 23, 2023 - - - -

MAMLS Spring Fling at Rutgers University
The MAMLS Spring Fling meeting will take place May 23-26 at Rutgers University, New Brunswick, New Jersey. More information about the meeting can be found on its website (https://sites.math.rutgers.edu/~fc327/MAMLS2023/index.html). Registration is free and everyone who plans to attend is encouraged to register for logistics purposes.

- - - - Wednesday, May 24, 2023 - - - -

- - - - Thursday, May 25, 2023 - - - -

- - - - Friday, May 26, 2023 - - - -

- - - - Other Logic News - - - -

- - - - Web Site - - - -

Find us on the web at: nylogic.github.io
(site designed, built & maintained by Victoria Gitman)

-------- ADMINISTRIVIA --------

To subscribe/unsubscribe to this list, please email your request to jreitz@citytech.cuny.edu.

If you have a logic-related event that you would like included in future mailings, please email jreitz@citytech.cuny.edu.

Applications of Set Theory, Lodz, Poland, September 4-8 2023

Conference

5/10/2023

Dear All, We would like to inform you about the session "Applications of Set Theory" which will be held as a part of Spanish-Polish Mathematical Meeting in Lodz, Poland, 4-8 Sep 2023. The following people kindly agreed to speak at the session: * Alberto Salguero Alarcón (Badajoz) * David Aspero (Norwich) * Antonio Aviles (Murcia) * Taras Banakh (Lviv) * Piotr Koszmider (Warsaw) * Mikołaj Krupski (Murcia / Warsaw) * Jorge López Abad (Madrid) [tentative] * Witold Marciszewski (Warsaw) * Arturo Martínez-Celis (Wroclaw) * Robert Rałowski (Wroclaw) * Grigor Sargsyan (Gdansk) * Jacek Tryba (Gdansk) All the informations about the conference can be found at https://es-pl.math.uni.lodz.pl/ In particular, here https://es-pl.math.uni.lodz.pl/second.pdf you can find the second announcement. The conference fee is 300 EUR (up to June 30). It covers conference materials, lunches, coffee breaks, excursions, reception on September 4th and banquet on September 7th. Ph.D. students have reduced fee (150 EUR). There is a possibility to give a contributed talk at the session. If you have any questions please do not hesitate to contact us. Your sincerely, Antonio Aviles, Piotr Borodulin-Nadzieja, Szymon Glab, Jaroslaw Swaczyna

Link to more info

Tagged: Alberto Salguero, David Aspero, Antonio Aviles, Taras Banakh, Piotr Koszmider, Mikołaj Krupski, Jorge López Abad, Witold Marciszewski, Arturo Martínez-Celis, Robert Rałowski, Grigor Sargsyan, Jacek Tryba

Nankai Logic Colloquium

5/9/2023 9:41:59

lHello everyone,

This week our weekly Nankai Logic Colloquium is going to be in the afternoon.

Our speaker this week will be Maciej Malicki from Polish Academy of Sciences. This talk is going to take place this Friday, May 12th, from 4pm to 5pm(UTC+8, Beijing time).

Title: Continuous logic and equivalence relations

Abstract: We will discuss two applications of infinitary continuous logic to Borel complexity of equivalence relations. We will characterize in model-theoretic terms essentially countable isomorphism relations on Borel classes of locally compact Polish metric structures. This gives a new proof of Kechris' theorem that orbit equivalence relations of actions of Polish locally compact groups are essentially countable. We will also show that isomorphism on such classes is always Borel reducible to graph isomorphism. This immediately answers a question of Gao and Kechris whether isometry of locally compact Polish metric spaces is reducible to graph isomorphism. The first result is joint work with Andreas Hallbäck and Todor Tsankov.

__________________________________________________________________________________________________

This is going to be an online event. Follow the link below to join the Zoom meeting. Please use your real name to join the meeting.

Title ： The 28th Nankai Logic Colloquium --Maciej Malicki

Time ：16:00pm, May. 12, 2023 (Beijing Time)

Zoom Number ： 880 6946 7024

Passcode ： 142863

Link ：https://us02web.zoom.us/j/88069467024?pwd=d2twVDI2c3Q4bVAyYmV4dmQ0dkZBdz09

_____________________________________________________________________

Best wishes,

Ming Xiao

Charla de Jose Moncayo en el Seminario Colombo Mexicano de Teoría de Conjuntos

Seminario Colombo Mexicano de Teoría de Conjuntos

5/8/2023 10:40:15

Seminario Colombo Mexicano de Teoría de Conjuntos

Mayo 11

4:00 p.m. - 5:00 p.m. (hora de Colombia)

Construcciones conjuntistas en modelos valuados y de Kripke

Jose R. Moncayo

Universidad Nacional de Colombia

Resumen. En esta charla se expondrán diferentes construcciones conjuntistas que buscan generalizar los modelos V y L en lógicas residuadas.

En primer lugar, usaremos la construcción de Scott y Solovay [1] (en donde se construye un modelo booleano de la teoría de conjuntos) para proponer dos definiciones de la noción de conjunto construible, tales que la primera terminará siendo isomorfa a V y la segunda a L.

En segundo lugar, mostraremos una generalización del trabajo de Fitting [2] sobre modelos de Kripke intuicionistas de la teoría de conjuntos. Para esto, se usarán los modelos de Kripke residuados de Ono y Komori [3, 4]. Propondremos una generalización de la jerarquía de von Neumann en el contexto de la lógica modal residuada y mostramos una traducción de fórmulas entre esta y una jerarquía de modelos Heyting valuados adecuados.

Referencias.

[1] Scott, D. & Solovay, R. (1967). Boolean-valued models for set theory.

[2] Fitting, M. (1969). Intuitionistic Logic, Model Theory and Forcing.

[3] Ono, H. & Komori, Y. (1985) Logics without the contraction rule.

[4] Ono, H. (1985) Semantical analysis of predicate logics without the contraction rule.

Zoom meeting information.

Meeting ID: 856 1882 0721

Passcode: 123456

https://cuaieed-unam.zoom.us/j/85618820721

This Week in Logic at CUNY

5/7/2023 22:30:00

This Week in Logic at CUNY:

- - - - Monday, May 8, 2023 - - - -

Saul Kripke Memorial Conference

The Saul Kripke Center and CUNY Graduate Center

May 8-9, 2023, 9am-5pm, The Elebash Recital Hall, Graduate Center, CUNY

Conference website

Conference program

Registration for attending in person is not required, but attendees will have to comply with the Graduate Center’s Building Access Policy. Although the conference will be a mainly in person event, a livestream is also available; for this, please register.

Lectures:
Romina Birman, Paul Boghossian, Harry Field, Melvin
Fitting, Daniel Isaacson, Carl Posy, Robert Stalnaker

Reminiscences:
Eduardo Barrio, James Burgess, David Chalmers, Mircea
Dumitru, Margaret Gilbert, Anandi Hattiangadi, Antonella
Mallozzi, Oliver Marshall, Yiannis Moschovakis, Stephen
Neale, Gary Ostertag, David Papineau, Graham Priest, Scott
Soames, Larry Tribe, Timothy Williamson

With an introduction by:
Steve Everett, Provost and Senior Vice President, The CUNY Graduate Center

- - - - Tuesday, May 9, 2023 - - - -

Saul Kripke Memorial Conference

The Saul Kripke Center and CUNY Graduate Center

May 8-9, 2023, 9am-5pm, The Elebash Recital Hall, Graduate Center, CUNY

Conference website

Conference program

Registration for attending in person is not required, but attendees will have to comply with the Graduate Center’s Building Access Policy. Although the conference will be a mainly in person event, a livestream is also available; for this, please register.

Lectures:
Romina Birman, Paul Boghossian, Harry Field, Melvin
Fitting, Daniel Isaacson, Carl Posy, Robert Stalnaker

Reminiscences:
Eduardo Barrio, James Burgess, David Chalmers, Mircea
Dumitru, Margaret Gilbert, Anandi Hattiangadi, Antonella
Mallozzi, Oliver Marshall, Yiannis Moschovakis, Stephen
Neale, Gary Ostertag, David Papineau, Graham Priest, Scott
Soames, Larry Tribe, Timothy Williamson

With an introduction by:
Steve Everett, Provost and Senior Vice President, The CUNY Graduate Center

Models of Peano Arithmetic (MOPA)
Tuesday, May 9, 1:00pm
Virtual (email Victoria Gitman vgitman@gmail.com for meeting id)

Mateusz Łełyk, University of Warsaw
Pathologies in Satisfaction Classes: part II

This is the second part of the talk given by Athar Abdul-Quader (Pathologically definable subsets of models of CT-), however we will make sure to make it self-contained.

The talk is centered around the following problem: when a subset of a countable and recursively saturated model M can be characterized as the set of the lengths of disjunctions on which a satisfaction class behaves correctly? More precisely: let DC(x) denote a sentence in a language of PA with a fresh binary predicate S which says 'For every disjunction d with at most x disjuncts and every assignment a, S(d,a) iff there is a disjunct d' in d such that S(d',a).' We say that X is a DC-set in (M,S) iff X is precisely the set of those numbers a such that (M,S) satisfies DC(a). We ask: given a countable and recursively saturated model M for which subsets X of M we can find a satisfaction class S such that X is a DC-set in (M,S)?

In the talk we study this problem for idempotent disjunctions, that is: disjunctions which repeat the same sentence. Let IDC(x) be DC(x) restricted to such 'idempotent' disjunctions of length x. The following is one of our core results:

Theorem: For an arbitrary countable and recursively saturated model M of PA the following conditions are equivalent:
(a) M is arithmetically saturated
(b) For every cut I in M there is a satisfaction class S such that I is an IDC-set in (M,S).

We study how this result generalizes to other propositional constructions in the place of disjunctions. The talk is based on a joint work with Athar Abdul-Quader presented in this paper from arxiv: arXiv:2303.18069v1 [math.LO] 31 Mar 2023.

- - - - Wednesday, May 10, 2023 - - - -

The Logic and Metaphysics Workshop special session

May 10th from 10:00-4:00 (NY time)

CUNY Graduate Center, Kelly Skylight Room (in person)

10:00-11:30: Heinrich Wansing (Bochum)
Title: Quantifiers in connexive logic (in general and in particular)

Abstract: Connexive logic has room for two pairs of universal and particular quantifiers: one pair are standard quantifiers; the other pair are unorthodox, but we argue, are well-motivated in the context of connexive logic. Both non-standard quantifiers have been introduced previously, but in the context of connexive logic they have a natural semantic and proof-theoretic place, and plausible natural language readings. The result are logics which are negation inconsistent but non-trivial.
Note: This is joint work with Zach Weber (Otago).

12:30-2:00: Daniel Skurt (Bochum)
Title: RNmatrices for modal logics

Abstract: In this talk we will introduce a semantics for modal logics, based on so-called restricted Nmatrices (RNmatrices). These RNmatrices, previously used in the context of paraconsistent logics, prove to be a versatile tool for generating semantics for normal and non-normal systems of modal logics. Each of these semantics have sound and complete Hilbert-style calculi. The advantage of RNmatrices is that they provide a unifying framework for modal logics with or without first-order Kripke-frame conditions.
Note: This is joint work with Marcelo Coniglio (Campinas) and Pawel Pawlowski (Ghent).

2:30-4:00: Mark Colyvan (Sydney/LMU)
Title: Explanatory and non-explanatory proofs in mathematics

Abstract: In this paper I look at the contrast between explanatory and non-explanatory proofs in mathematics. This is done with the aim of shedding light on what distinguishes the explanatory proofs. I argue that there may be more than one notion of explanation in operation in mathematics: there does not seem to be a single account that ties together the different explanatory proofs found in mathematics. I then attempt to give a characterization of the different notions of explanation in play and how these sit with accounts of explanation found in philosophy of science.

- - - - Thursday, May 11, 2023 - - - -

- - - - Friday, May 12, 2023 - - - -

Logic Workshop
CUNY Graduate Center

Friday May 12, 2:00pm-3:30pm, Room 6417

Brian Wynne, CUNY
Recent developments in the model theory of Abelian lattice-ordered groups

An Abelian lattice-ordered group (-group) is an Abelian group with a partial ordering, invariant under translations, that is a lattice ordering. A prototypical example of an -group is , the continuous real-valued functions on the topological space with pointwise operations and ordering. Let be the class of -groups, viewed as structures for the first-order language . After giving more background on -groups, I will survey what is known about the -groups existentially closed (e.c.) in , including some new examples I constructed using Fraïssé limits. Then I will discuss some recently published work of Scowcroft concerning the -groups e.c. in , the class of nonzero Archimedean -groups with distinguished strong order unit (viewed as structures for ). Building on Scowcroft's results, I will present new axioms for the -groups e.c. in and show how they allow one to characterize those spaces for which is e.c. in .

Next Week in Logic at CUNY:

- - - - Monday, May 15, 2023 - - - -

Logic and Metaphysics Workshop
Date: Monday, May 15, 4.15-6.15pm (NY time), GC 9206
NOTE: Meetings this semester are in person only (no zoom)
For meeting information, please sign up for our mailing list at https://logic.commons.gc.cuny.edu/about/

Maciej Sendłak (Warsaw).
Title: Explanatory realism and counterfactuals

Abstract: In my talk, I want to propose a novel approach to the question of counterfactuals. This is grounded in two assumptions, imported from the philosophy of science. The first one has it that to explain a phenomenon is to show how it depends on something else. The second states that the correct explanation ought to be contrastive. This means that a good explanation justifies the occurrence of a phenomenon and – at the same time – excludes occurrence of some other states of affairs. I am going to argue that – together with the assumption that conditionals express a dependence relation between A and C – the above gives ground for analysis of counterfactuals. According to this proposal: “A>C” is true at the world of evaluation iff there is a relation of dependence that hold between referents of A and C, and the same relation of dependence holds in the world of evaluation.

- - - - Tuesday, May 16, 2023 - - - -

- - - - Wednesday, May 17, 2023 - - - -

The New York City Category Theory Seminar
Department of Computer Science
Department of Mathematics
The Graduate Center of The City University of New York

URL: http://www.sci.brooklyn.cuny.edu/~noson/Seminar/index.html

Speaker: Arthur Parzygnat, Nagoya University.

Date and Time: Wednesday May 17, 2023, 7:00 - 8:30 PM. IN PERSON TALK.

Title: Inferring the past and using category theory to define retrodiction.

Abstract: Classical retrodiction is the act of inferring the past based on knowledge of the present. The primary example is given by Bayes' rule P(y|x) P(x) = P(x|y) P(y), where we use prior information, conditional probabilities, and new evidence to update our belief of the state of some system. The question of how to extend this idea to quantum systems has been debated for many years. In this talk, I will lay down precise axioms for (classical and quantum) retrodiction using category theory. Among a variety of proposals for quantum retrodiction used in settings such as thermodynamics and the black hole information paradox, only one satisfies these categorical axioms. Towards the end of my talk, I will state what I believe is the main open question for retrodiction, formalized precisely for the first time. This work is based on the preprint https://arxiv.org/abs/2210.13531 and is joint work with Francesco Buscemi.

- - - - Thursday, May 18, 2023 - - - -

- - - - Friday, May 19, 2023 - - - -

Set Theory Seminar
CUNY Graduate Center
Friday, May 19, 12:30pm NY time
Virtual: Please email Victoria Gitman (vgitman@gmail.com) for meeting id.

Miha Habič, Bard College at Simon's Rock
Some old and new results on nonamalgamable forcing extensions

Fixing some countable transitive model of set theory, we can consider its generic multiverse, the family of all models obtainable from by taking any sequence of forcing extensions and ground models. There is an attractive similarity between the generic multiverse and the Turing degrees, but the multiverse has the drawback (or feature?) that it contains nonamalgamable models, that is, models with no common upper bound, as was observed by several people, going back to at least Mostowski. In joint work with Hamkins, Klausner, Verner, and Williams in 2019, we studied the order-theoretic properties of the generic multiverse and, among other results, gave a characterization of which partial orders embed nicely into the multiverse. I will present our results in the simplest case of Cohen forcing, as well as existing generalizations to wide forcing, and some new results on non-Cohen ccc forcings.

- - - - Other Logic News - - - -

- - - - Web Site - - - -

Find us on the web at: nylogic.github.io
(site designed, built & maintained by Victoria Gitman)

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If you have a logic-related event that you would like included in future mailings, please email jreitz@citytech.cuny.edu.

(KGRC) Set Theory Seminar talk on TUESDAY, May 9

Kurt Godel Research Center

5/4/2023 13:29:13

The KGRC welcomes as guests: Clifton Ealy (host: Matthias Aschenbrenner) visits the KGRC until August 15. Thilo Weinert (host: Vera Fischer) visits the KGRC until June 30 and gives a talk, see below. Sergei Starchenko (host: Matthias Aschenbrenner) visits the KGRC from May 13 to May 27 and gives a talk, details to be announced at a later time. Fabian Kaak (host: Vera Fischer) visits the KGRC from May 23 to May 26 and gives a short talk, details to be announced at a later time. Ido Feldman (host: Miguel Moreno) visits the KGRC from June 11 to June 17 and gives a talk, details to be announced at a later time. Jaroslav Šupina (host: Vera Fischer) visits the KGRC from June 18 to June 24 and gives a talk, details to be announced at a later time. Nadiya Kolos (host: Miguel Moreno) visits the KGRC from June 19 to June 23 and gives a talk, details to be announced at a later time. * * * Set Theory Seminar Kurt Gödel Research Center TUESDAY, May 9 (Please note the unusual day and the time!) "On Unsound Linear Orderings" Thilo Weinert In the Eighties Adrian Mathias introduced the notion of soundness of an ordinal. An ordinal is sound if for any countable partition P of it only countably many ordinals are order-types of unions of subpartitionts of P. Mathias showed that the least unsound ordinal $\zeta$ is $\omega_1^{\omega + 2}$ if $\aleph_1$ can be embedded into the continuum but if $\aleph_1$ is regular yet cannot be embedded into the continuum, $\zeta \geqslant \omega_1^{\omega 2 + 1}$. I am going to discuss his findings and consider the notion for the more general class of linear orderings building on work by him, MacPherson, and Schmerl. I am also going to mention some open problems. This is joint ongoing work with Garrett Ervin and Jonathan Schilhan. Time and Place Talk at 3:00pm in hybrid mode: on-site as well as via Zoom Universität Wien Institut für Mathematik Kolingasse 14-16 1090 Wien 1st floor Seminar room 10 Zoom: If you need the Zoom data and have not received the meeting link by the day before the talk, please contact richard.springer@univie.ac.at! Please direct any other questions about this talk to vera.fischer@univie.ac.at.

Wednesday seminar

Prague Set Theory Seminar

5/4/2023 8:30:25

Dear all, The seminar meets on Wednesday May 10th at 11:00 in the Institute of Mathematics CAS, Zitna 25, seminar room, 3rd floor, front building. There will be no seminars during a couple of weeks after next the next one. The seminar will more likely meet again on Wednesday June 21st. Program: Tomas Jakl -- Game comonads and the composition methods Composition methods are a key technique in finite model theory, which enables modular reasoning about complex structures. Examples of such theorems are Mostowski theorem and Feferman-Vaught theorems, which express that logical equivalence of structures is congruent with respect to the operations of disjoint union and products of structures. Typical applications of composition methods in finite model theory are Courcelle's algorithmic meta theorems. In this talk I will give a brief overview of game comonads, a new tool from category theory in finite model theory, and discuss how they allow us to prove very general Feferman-Vaught-Mostowski theorems. Comonads are the formally dual notion to monads, where the latter can be used to describe algebraic systems over arbitrary domains. For example, topological groups can be viewed as algebras over topological spaces. Game comonads are an approach to creating comonads by semantically encoding a game-theoretic description of logical equivalence. Our approach allows us to make use of a categorical description of tensor products and bilinear maps of vector spaces. Best, David

Logic Seminar 10 May 2023 17:00 hrs at NUS by Jan Baars

NUS Logic Seminar

5/3/2023 6:46:51

Invitation to the Logic Seminar at the National University of Singapore Date: Wednesday, 10 May 2023, 17:00 hrs Place: NUS, Department of Mathematics, S17#04-05 Speaker: Jan Baars Title: Generalisations of a result by Gulko on spaces of continuous functions URL: http://www.comp.nus.edu.sg/~fstephan/logicseminar.html Please find the abstract attached.

Cross-Alps Logic Seminar (speaker: Dima Sinapova)

Cross-Alps Logic Seminar

5/2/2023 3:51:00

On Friday 05.05.2023 at 16.00

Dima Sinapova (Rutgers University)

will give a talk on

Mutual stationarity and the failure of SCH

Please refer to the usual webpage of our LogicGroup for more details and the abstract of the talk.

The seminar will be held remotely through Webex. Please write to vincenzo.dimonte [at] uniud [dot] it for the link to the event.

The Cross-Alps Logic Seminar is co-organized by the logic groups of Genoa, Lausanne, Turin and Udine as part of our collaboration in the project PRIN 2017 'Mathematical logic: models, sets, computability'.

All the best,
Vincenzo

Charla de Joel Aguilar en el Seminario Colombo Mexicano de Teoría de Conjuntos

Seminario Colombo Mexicano de Teoría de Conjuntos

5/1/2023 23:47:17

Seminario Colombo Mexicano de Teoría de Conjuntos

Mayo 4

4:00 p.m. - 5:00 p.m. (hora de Colombia)

Subespacios "grandes" de C_p(X) y sus invariantes cardinales

Joel Aguilar

Universidad Michoacana de San Nicolás de Hidalgo

Resumen. Sea C_p(X) el espacio de funciones continuas de X en R con la topología de la convergencia puntual (para garantizar que C_p(X) sea no trivial en esta plática asumiremos que todos los espacios estudiados son de Tychonoff). Una técnica común para obtener información de un espacio X es estudiar las propiedades de sus subespacios "suficientemente grandes"; por ejemplo, un espacio con un subespacio denso y psuedocompacto tiene que ser pseudocompacto; un espacio no puede ser de Lindelöf si tiene un subespacio no-numerable, discreto y cerrado; etc. En la plática nos enfocaremos en los subespacios de C_p(X) que también son densos en la topología uniforme y discutiremos cómo se relacionan las propiedades de estos subespacios con las de C_p(X).

Zoom meeting information.

Meeting ID: 856 1882 0721

Passcode: 123456

https://cuaieed-unam.zoom.us/j/85618820721

Nankai Logic Colloquium

5/1/2023 22:21:23

Hello everyone,

Sorry for the interrupting again. I would like to apologize(again) for a mistake in the previous announcement. There was a serious mistake in the time mentioned. The correct time of the Nankai Logic Colloquium this week is in the afternoon, 4pm to 5pm (instead of morning mentioned in the last email), Friday Beijing time. I am very very sorry for the confuse it may cause.

The following is a corrected version of the announcement for this week:

_____________________________________________________

This week our weekly Nankai Logic Colloquium is going to be in the afternoon.

Our speaker this week will be Ilijas Farah from York University. This talk is going to take place this Friday, May 5th, from 4pm to 5pm(UTC+8, Beijing time).

Title: Corona rigidity

Abstract. Reduced powers associated with the Frech\'et filter are well-known to be countably saturated (that is, $\aleph_1$-saturated). Because of this the Continuum Hypothesis implies that the reduced power of every countable structure has $2^{2^{\aleph_0}}$ automorphisms, and that for such reduced powers elementary equivalence is a sufficient condition for isomorphism. On the other hand, forcing axioms imply that some reduced powers (e.g., those of finite Boolean algebras) have only trivial automorphisms while some other reduced powers are saturated and they $2^{2^{\aleph_0}}$ automorphisms, provably in ZFC (e.g., those of the 2-element cyclic group).

This begs two questions: Which structures have saturated reduced powers, provably in ZFC? For which structures forcing axioms imply the `corona rigidity', that their reduced powers have only trivial automorphisms?
I will give a complete answer to the first question and a partial (rather surprising) answer to the second.

__________________________________________________________________________________________________

This is going to be an online event. Follow the link below to join the Zoom meeting. Please use your real name to join the meeting.

Title ： The 27th Nankai Logic Colloquium --Ilijas Farah

Time ：16:00pm, May. 05, 2023 (Beijing Time)

Zoom Number ： 827 3827 3373

Passcode ： 821730

Link ：https://us02web.zoom.us/j/82738273373?pwd=ZnFYbEFUSWErcDVROFUrQnZ1WGNxZz09

_____________________________________________________________________

Best wishes,

Ming Xiao

Wednesday seminar

Prague Set Theory Seminar

5/1/2023 11:29:12

Dear all, The seminar meets on Wednesday May 3rd at 11:00 in the Institute of Mathematics CAS, Zitna 25, seminar room, 3rd floor, front building. There is no fixed program yet. We will meet and see what are we interested in hearing/working on. Walk-in speakers are welcome. Best, David

Nankai Logic Colloquium

5/1/2023 7:33:11

Hello everyone,

I would like to apologize for a mistake in the previous announcement. There was a typo in the time mentioned. The correct time is 9am to 10am (instead of 10pm). I am very sorry for the confuse it may cause.

The following is a corrected version of the previous email:

_____________________________________________________

This week our weekly Nankai Logic Colloquium is going to be in the morning.

Our speaker this week will be Ilijas Farah from York University. This talk is going to take place this Friday, May 5th, from 9am to 10am(UTC+8, Beijing time).

Title: Corona rigidity

Abstract. Reduced powers associated with the Frech\'et filter are well-known to be countably saturated (that is, $\aleph_1$-saturated). Because of this the Continuum Hypothesis implies that the reduced power of every countable structure has $2^{2^{\aleph_0}}$ automorphisms, and that for such reduced powers elementary equivalence is a sufficient condition for isomorphism. On the other hand, forcing axioms imply that some reduced powers (e.g., those of finite Boolean algebras) have only trivial automorphisms while some other reduced powers are saturated and they $2^{2^{\aleph_0}}$ automorphisms, provably in ZFC (e.g., those of the 2-element cyclic group).

This begs two questions: Which structures have saturated reduced powers, provably in ZFC? For which structures forcing axioms imply the `corona rigidity', that their reduced powers have only trivial automorphisms?
I will give a complete answer to the first question and a partial (rather surprising) answer to the second.

__________________________________________________________________________________________________

This is going to be an online event. Follow the link below to join the Zoom meeting. Please use your real name to join the meeting.

Title ： The 27th Nankai Logic Colloquium --Ilijas Farah

Time ：9:00am, May. 05, 2023 (Beijing Time)

Zoom Number ： 827 3827 3373

Passcode ： 821730

Link ：https://us02web.zoom.us/j/82738273373?pwd=ZnFYbEFUSWErcDVROFUrQnZ1WGNxZz09

_____________________________________________________________________

Best wishes,

Ming Xiao

Nankai Logic Colloquium

5/1/2023 7:08:56

Hello everyone,

This week our weekly Nankai Logic Colloquium is going to be in the morning.

Our speaker this week will be Ilijas Farah from York University. This talk is going to take place this Friday, May 5th, from 9am to 10pm(UTC+8, Beijing time).

Title: Corona rigidity

Abstract. Reduced powers associated with the Frech\'et filter are well-known to be countably saturated (that is, $\aleph_1$-saturated). Because of this the Continuum Hypothesis implies that the reduced power of every countable structure has $2^{2^{\aleph_0}}$ automorphisms, and that for such reduced powers elementary equivalence is a sufficient condition for isomorphism. On the other hand, forcing axioms imply that some reduced powers (e.g., those of finite Boolean algebras) have only trivial automorphisms while some other reduced powers are saturated and they $2^{2^{\aleph_0}}$ automorphisms, provably in ZFC (e.g., those of the 2-element cyclic group).

This begs two questions: Which structures have saturated reduced powers, provably in ZFC? For which structures forcing axioms imply the `corona rigidity', that their reduced powers have only trivial automorphisms?
I will give a complete answer to the first question and a partial (rather surprising) answer to the second.

__________________________________________________________________________________________________

This is going to be an online event. Follow the link below to join the Zoom meeting. Please use your real name to join the meeting.

Title ： The 27th Nankai Logic Colloquium --Ilijas Farah

Time ：9:00am, May. 05, 2023 (Beijing Time)

Zoom Number ： 827 3827 3373

Passcode ： 821730

Link ：https://us02web.zoom.us/j/82738273373?pwd=ZnFYbEFUSWErcDVROFUrQnZ1WGNxZz09

_____________________________________________________________________

Best wishes,

Ming Xiao

This Week in Logic at CUNY

4/30/2023 22:38:00

This Week in Logic at CUNY:

- - - - Monday, May 1, 2023 - - - -

Logic and Metaphysics Workshop
Date: Monday, May 1, 4.15-6.15pm (NY time), GC 9206
NOTE: Meetings this semester are in person only (no zoom)
For meeting information, please sign up for our mailing list at https://logic.commons.gc.cuny.edu/about/

Samara Burns (Columbia).
Title: Understanding (and) surveyability

Abstract: In this talk I will discuss the notion of surveyable proof. Discussions of surveyability emerge periodically in recent philosophical literature, but the notion of surveyable proof can be traced back to Descartes. Despite this long history, there is still disagreement about what features a proof must have in order to count as surveyable. This disagreement arises, in part, because there is still significant vagueness regarding the problem that unsurveyability poses for the epistemology of mathematics. I identify three features of justification in mathematics that could be at issue in the surveyability debate: a priority, internalism, and certainty. Each of these features is prima facie troubled by unsurveyable proof. In each case, however, I’ll argue that unsurveyable proof does not pose any real issue. I will suggest that the surveyability debate should not be framed in terms of justification at all, and that the problem is really about mathematical understanding.

- - - - Tuesday, May 2, 2023 - - - -

- - - - Wednesday, May 3, 2023 - - - -

The New York City Category Theory Seminar
Department of Computer Science
Department of Mathematics
The Graduate Center of The City University of New York

URL: http://www.sci.brooklyn.cuny.edu/~noson/Seminar/index.html

Speaker: Gemma De las Cuevas, University of Innsbruck.

Date and Time: Wednesday May 3, 2023, 7:00 - 8:30 PM. ZOOM TALK.

Title: A framework for universality across disciplines.

Abstract: What is the scope of universality across disciplines? And what is its relation to undecidability? To address these questions, we build a categorical framework for universality. Its instances include Turing machines, spin models, and others. We introduce a hierarchy of universality and argue that it distinguishes universal Turing machines as a non-trivial form of universality. We also outline the relation to undecidability by drawing a connection to Lawvere’s Fixed Point Theorem. Joint work with Sebastian Stengele, Tobias Reinhart and Tomas Gonda.

- - - - Thursday, May 4, 2023 - - - -

- - - - Friday, May 5, 2023 - - - -

Set Theory Seminar
CUNY Graduate Center

NOTE UPDATED TIME: Friday, May 5, 10:00am NY time
Virtual: Please email Victoria Gitman (vgitman@gmail.com) for meeting id.

Joel David Hamkins, Notre Dame University

Realizing Frege's Basic Law V, provably in ZFC

The standard set-theoretic distinction between sets and classes instantiates in important respects the Fregean distinction between objects and concepts, for in set theory we commonly take the universe of sets as a realm of objects to be considered under the guise of diverse concepts, the definable classes, each serving as a predicate on that domain of individuals. Although it is commonly held that in a very general manner, there can be no association of classes with objects in a way that fulfills Frege's Basic Law V, nevertheless, in the ZF framework, it turns out that we can provide a completely deflationary account of this and other Fregean abstraction principles. Namely, there is a mapping of classes to objects, definable in set theory in senses I shall explain (hence deflationary), associating every first-order parametrically definable class $F$ with a set object $ε F$ , in such a way that Basic Law V is fulfilled:
$ε F = ε G \leftrightarrow \forall x (F x \leftrightarrow G x) .$ Russell's elementary refutation of the general comprehension axiom, therefore, is improperly described as a refutation of Basic Law V itself, but rather refutes Basic Law V only when augmented with powerful class comprehension principles going strictly beyond ZF. The main result leads also to a proof of Tarski's theorem on the nondefinability of truth as a corollary to Russell's argument. A central goal of the project is to highlight the issue of definability and deflationism for the extension assignment problem at the core of Fregean abstraction.

Logic Workshop
CUNY Graduate Center

Friday May 5, 2:00pm-3:30pm, Room 6417

Karen Lange, Wellesley College

Classification via effective lists

'Classifying' a natural collection of structures is a common goal in mathematics. Providing a classification can mean different things, e.g., identifying a set of invariants that settle the isomorphism problem or creating a list of all structures of a given kind without repetition of isomorphism type. Here we discuss recent work on classifications of the latter kind from the perspective of computable structure theory. We’ll consider natural classes of computable structures such as vector spaces, equivalence relations, algebraic fields, and trees to better understand the nuances of classification via effective lists and its relationship to other forms of classification in this setting.

Next Week in Logic at CUNY:

- - - - Monday, May 8, 2023 - - - -