Representations of Monomiality Principle with Sheffer-type Polynomials and Boson Normal Ordering

2); (2) Polish Academy of Sciences; (3) ENEA; A Horzela (2); Centro Ricerche Frascati; France; G Dattoli (3); Italy); K A Penson (1) ((1) LPTMC; Krakow

arxiv: quant-ph/0504009 · v1 · pith:T66UO2IBnew · submitted 2005-04-02 · 🪐 quant-ph

Representations of Monomiality Principle with Sheffer-type Polynomials and Boson Normal Ordering

P Blasiak (1 , 2) , G Dattoli (3) , A Horzela (2) , K A Penson (1) ((1) LPTMC , Paris University 6 , France , (2) Polish Academy of Sciences

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Krakow Poland (3) ENEA Centro Ricerche Frascati Rome Italy)

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keywords bosonmonomialitynormaloperatoroperatorsorderingpolynomialsprinciple

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We construct explicit representations of the Heisenberg-Weyl algebra [P,M]=1 in terms of ladder operators acting in the space of Sheffer-type polynomials. Thus we establish a link between the monomiality principle and the umbral calculus. We use certain operator identities which allow one to evaluate explicitly special boson matrix elements between the coherent states. This yields a general demonstration of boson normal ordering of operator functions linear in either creation or annihilation operators. We indicate possible applications of these methods in other fields.

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Representations of Monomiality Principle with Sheffer-type Polynomials and Boson Normal Ordering

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