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On sofic approximations of ${\mathbb F}_2\times {\mathbb F}_2$

Part of: Permutation groups Special aspects of infinite or finite groups

Published online by Cambridge University Press:  04 May 2021

ADRIAN IOANA
ADRIAN IOANA*
Affiliation:
Department of Mathematics, University of California San Diego, 9500 Gilman Drive, La Jolla, CA92093, USA
*
e-mail: aioana@ucsd.edu
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Abstract

We construct a sofic approximation of ${\mathbb F}_2\times {\mathbb F}_2$ that is not essentially a ‘branched cover’ of a sofic approximation by homomorphisms. This answers a question of L. Bowen.

Keywords

sofic groupsofic approximationproperty taugroup stability

MSC classification

Primary: 20B07: General theory for infinite groups
Secondary: 20F69: Asymptotic properties of groups
Type
Original Article
Information
Ergodic Theory and Dynamical Systems , Volume 42 , Issue 7 , July 2022 , pp. 2333 - 2351
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Copyright
© The Author(s), 2021. Published by Cambridge University Press

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References

Alon, N., Lubotzky, A. and Widgerson, A.. Semi-direct product in groups and zig-zag product in graphs: connections and applications (extended abstract). Proc. 42nd IEEE Symp. on Foundations of Computer Science (Las Vegas, NV, 2001). IEEE Computer Society, Los Alamitos, CA, 2001, pp. 630637.Google Scholar
Arzhantseva, G. and Paunescu, L.. Almost commuting permutations are near commuting permutations. J. Funct. Anal. 269(3) (2015), 745757.CrossRefGoogle Scholar
Bowen, L.. Examples in the entropy theory of countable group actions. Ergod. Th. & Dynam. Sys. 40(10) (2020), 25932680.CrossRefGoogle Scholar
Bowen, L.. A brief introduction to sofic entropy theory. Proc. Int. Congress of Mathematicians (Rio de Janeiro, 2018). Vol. 2. World Scientific, Hackensack, NJ, 2019, pp. 18471866.CrossRefGoogle Scholar
Bourgain, J. and Varjú, P.. Expansion in SLd (/qℤ), q arbitrary. Invent. Math. 188(1) (2012), 151173.CrossRefGoogle Scholar
Elek, G. and Szabó, E.. Sofic representations of amenable groups. Proc. Amer. Math. Soc. 139 (2011), 42854291.CrossRefGoogle Scholar
Ioana, A.. Compact actions whose orbit equivalence relations are not profinite. Adv. Math. 354 (2019), 106753, 19 pp.CrossRefGoogle Scholar
Ioana, A.. Stability for product groups and propert (τ). J. Funct. Anal. 279(9) (2020), 108729.CrossRefGoogle Scholar
Lazarovich, N., Levit, A. and Minsky, Y.. Surface groups are flexibly stable. Preprint, 2019, arXiv:1901.07182.Google Scholar
Lubotzky, A. and Segal, D.. Subgroup Growth (Progress in Mathematics, 212). Birkhäuser, Basel, 2003.CrossRefGoogle Scholar
Lubotzky, A.. Discrete Groups, Expanding Graphs and Invariant Measures (Progress in Mathematics, 125). Birkhäuser, Basel, 1994. With an Appendix by Jonathan D. Rogawski.CrossRefGoogle Scholar
Arzhantseva, G., Thom, A. and Valette, A.. Finite-dimensional approximation of discrete groups. Oberwolfach Rep. 8(2) (2011), 14291467 (English summary). Abstracts from the workshop held on May 15–21, 2011.CrossRefGoogle Scholar
Thom, A.. Finitary approximations of groups and their applications. Proc. Int. Congress of Mathematics (Rio de Janeiro, 2018). Vol. 2. World Scientific, Hackensack, NJ, 2019, pp. 17751796.Google Scholar