Combinatorial Algebra for second-quantized Quantum Theory

((1) Polish Academy of Sciences; (2) LIPN; (3) LPTMC; 4); (4) The Open University; A. Horzela (1); A. I. Solomon (3; France; G. H. E. Duchamp (2); K. A. Penson (3)

arxiv: 1001.4964 · v1 · submitted 2010-01-27 · 🧮 math-ph · hep-th· math.CO· math.MP· quant-ph

Combinatorial Algebra for second-quantized Quantum Theory

P. Blasiak (1) , G. H. E. Duchamp (2) , A. I. Solomon (3 , 4) , A. Horzela (1) , K. A. Penson (3) , ((1) Polish Academy of Sciences , Krakow

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Poland (2) LIPN University of Paris-Nord France (3) LPTMC University of Paris VI (4) The Open University Milton Keynes UK)

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classification 🧮 math-ph hep-thmath.COmath.MPquant-ph

keywords algebrastructurecombinatorialquantumannihilationassociativeconcretecreation

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We describe an algebra G of diagrams which faithfully gives a diagrammatic representation of the structures of both the Heisenberg-Weyl algebra H - the associative algebra of the creation and annihilation operators of quantum mechanics - and U(L_H), the enveloping algebra of the Heisenberg Lie algebra L_H. We show explicitly how G may be endowed with the structure of a Hopf algebra, which is also mirrored in the structure of U(L_H). While both H and U(L_H) are images of G, the algebra G has a richer structure and therefore embodies a finer combinatorial realization of the creation-annihilation system, of which it provides a concrete model.

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Combinatorial Algebra for second-quantized Quantum Theory

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