Let ${\displaystyle p}$  be a fixed prime number. An infinite group ${\displaystyle G}$  is called a Tarski monster group for ${\displaystyle p}$  if every nontrivial subgroup (i.e. every subgroup other than 1 and G itself) has ${\displaystyle p}$  elements.

• ${\displaystyle G}$  is necessarily finitely generated. In fact it is generated by every two non-commuting elements.
• ${\displaystyle G}$  is simple. If ${\displaystyle N\trianglelefteq G}$  and ${\displaystyle U\leq G}$  is any subgroup distinct from ${\displaystyle N}$  the subgroup ${\displaystyle NU}$  would have ${\displaystyle p^{2}}$  elements.
• The construction of Olshanskii shows in fact that there are continuum-many non-isomorphic Tarski Monster groups for each prime ${\displaystyle p>10^{75}}$ .
• Tarski monster groups are examples of non-amenable groups not containing any free subgroups.

• A. Yu. Olshanskii, An infinite group with subgroups of prime orders, Math. USSR Izv. 16 (1981), 279–289; translation of Izvestia Akad. Nauk SSSR Ser. Matem. 44 (1980), 309–321.
• A. Yu. Olshanskii, Groups of bounded period with subgroups of prime order, Algebra and Logic 21 (1983), 369–418; translation of Algebra i Logika 21 (1982), 553–618.
• Ol'shanskiĭ, A. Yu. (1991), Geometry of defining relations in groups, Mathematics and its Applications (Soviet Series), vol. 70, Dordrecht: Kluwer Academic Publishers Group, ISBN 978-0-7923-1394-6