Ladder Operators and Endomorphisms in Combinatorial Physics

Allan I. Solomon (LPTMC); Andrzej Horzela (IFJ-PAN - Polish Academy of Sciences); G\'erard Henry Edmond Duchamp (LIPN); Karol A. Penson (LPTMC); Laurent Poinsot (LIPN); Pawel Blasiak (IFJ-PAN - Polish Academy of Sciences)

arxiv: 0908.2332 · v2 · pith:4D52P3NUnew · submitted 2009-08-17 · 🧮 math.CO · cs.SC· quant-ph

Ladder Operators and Endomorphisms in Combinatorial Physics

G\'erard Henry Edmond Duchamp (LIPN) , Laurent Poinsot (LIPN) , Allan I. Solomon (LPTMC) , Karol A. Penson (LPTMC) , Pawel Blasiak (IFJ-PAN - Polish Academy of Sciences) , Andrzej Horzela (IFJ-PAN - Polish Academy of Sciences) This is my paper

classification 🧮 math.CO cs.SCquant-ph

keywords endomorphismsphysicsalgebraexpressedgeneralizationsoperatorstermsclassical

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Starting with the Heisenberg-Weyl algebra, fundamental to quantum physics, we first show how the ordering of the non-commuting operators intrinsic to that algebra gives rise to generalizations of the classical Stirling Numbers of Combinatorics. These may be expressed in terms of infinite, but {\em row-finite}, matrices, which may also be considered as endomorphisms of $\C[[x]]$. This leads us to consider endomorphisms in more general spaces, and these in turn may be expressed in terms of generalizations of the ladder-operators familiar in physics.

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Ladder Operators and Endomorphisms in Combinatorial Physics

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