Chinese Monoid

In mathematics, the Chinese monoid is a monoid generated by a totally ordered alphabet with the relations ''cba'' = ''cab'' = ''bca'' for every ''a'' ≤ ''b'' ≤ ''c''. An algorithm similar to Craige Schensted, Schensted's algorithm yields characterisation of the equivalence classes and a cross-section theorem. It was discovered by during their classification of monoids with growth similar to that of the plactic monoid, and studied in detail by Julien Cassaigne, Marc Espie, Daniel Krob, Jean-Christophe Novelli, and Florent Hivert in 2001.

The Chinese monoid has a regular language cross-section

:$a^* \ (ba)^*b^* \ (ca)^*(cb)^* c^* \cdots$

and hence polynomial growth of dimension $\frac$.

The Chinese monoid equivalence class of a permutation is the preimage of an involution under the map $w \mapsto w \circ w^$ where $\circ$ denotes the product in the Iwahori–Hecke algebra, Iwahori-Hecke algebra with $q_s = 0$.

See also

* Plactic monoid

References

*

Combinatorics
Semigroup theory

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