Piecewise syndetic set

In mathematics, piecewise syndeticity is a notion of largeness of subsets of the natural numbers. A set ${\displaystyle S\subset \mathbb{\mathbb{N}}}$ is called piecewise syndetic if there exists a finite subset G of ${\displaystyle \mathbb{\mathbb{N}}}$ such that for every finite subset F of ${\displaystyle \mathbb{\mathbb{N}}}$ there exists an ${\displaystyle x\in \mathbb{\mathbb{N}}}$ such that

${\displaystyle x+F\subset \bigcup _{n\in G}(S-n)}$

where ${\displaystyle S-n=\{m\in \mathbb{\mathbb{N}}:m+n\in S\}}$. Equivalently, S is piecewise syndetic if there is a constant b such that there are arbitrarily long intervals of ${\displaystyle \mathbb{\mathbb{N}}}$ where the gaps in S are bounded by b.

• A set is piecewise syndetic if and only if it is the intersection of a syndetic set and a thick set.
• If S is piecewise syndetic then S contains arbitrarily long arithmetic progressions.
• A set S is piecewise syndetic if and only if there exists some ultrafilter U which contains S and U is in the smallest two-sided ideal of ${\displaystyle \beta \mathbb{\mathbb{N}}}$, the Stone–Čech compactification of the natural numbers.
• Partition regularity: if ${\displaystyle S}$ is piecewise syndetic and ${\displaystyle S=C_1\cup C_2\cup \dots \cup C_n}$, then for some ${\displaystyle i\le n}$, ${\displaystyle C_i}$ contains a piecewise syndetic set. (Brown, 1968)
• If A and B are subsets of ${\displaystyle \mathbb{\mathbb{N}}}$ with positive upper Banach density, then ${\displaystyle A+B=\{a+b:a\in A,b\in B\}}$ is piecewise syndetic.^[1]

There are many alternative definitions of largeness that also usefully distinguish subsets of natural numbers:

• Cofiniteness
• IP set
• member of a nonprincipal ultrafilter
• positive upper density
• syndetic set
• thick set

• Ergodic Ramsey theory

• McLeod, Jillian (2000). "Some Notions of Size in Partial Semigroups". Topology Proceedings 25 (Summer 2000): 317—332. http://topology.nipissingu.ca/tp/reprints/v25/tp25217.pdf. 
• "Minimal Idempotents and Ergodic Ramsey Theory". Topics in Dynamics and Ergodic Theory. London Mathematical Society Lecture Note Series. 310. Cambridge University Press, Cambridge. 2003. pp. 8—39. doi:10.1017/CBO9780511546716.004. http://www.math.ohio-state.edu/~vitaly/vbkatsiveli20march03.pdf. 
• "Partition regular structures contained in large sets are abundant". Journal of Combinatorial Theory. Series A 93 (1): 18—36. 2001. doi:10.1006/jcta.2000.3061. 
• Brown, Thomas Craig (1971). "An interesting combinatorial method in the theory of locally finite semigroups". Pacific Journal of Mathematics 36 (2): 285—289. doi:10.2140/pjm.1971.36.285. http://projecteuclid.org/euclid.pjm/1102971066. 

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