English
Related papers

Related papers: A product formula and combinatorial field theory

200 papers

We give a general expression for the normally ordered form of a function F(w(a,a*)) where w is a function of boson annihilation and creation operators satisfying [a,a*]=1. The expectation value of this expression in a coherent state becomes…

Quantum Physics · Physics 2015-06-26 P. Blasiak , K. A. Penson , A. I. Solomon , A. Horzela , G. E. H. Duchamp

We provide the solution to the normal ordering problem for powers and exponentials of two classes of operators. The first one consists of boson strings and more generally homogeneous polynomials, while the second one treats operators linear…

Quantum Physics · Physics 2010-12-30 P. Blasiak

We consider the numbers arising in the problem of normal ordering of expressions in canonical boson creation and annihilation operators. We treat a general form of a boson string which is shown to be associated with generalizations of…

Quantum Physics · Physics 2010-12-30 M A Mendez , P Blasiak , K A Penson

For any function F(x) having a Taylor expansion we solve the boson normal ordering problem for F[(a*)^r a^s], with r,s positive integers,[a,a*]=1, i.e. we provide exact and explicit expressions for its normal form which has all a's to the…

Quantum Physics · Physics 2007-05-23 P. Blasiak , K. A. Penson , A. I. Solomon

We discuss a general combinatorial framework for operator ordering problems by applying it to the normal ordering of the powers and exponential of the boson number operator. The solution of the problem is given in terms of Bell and Stirling…

Quantum Physics · Physics 2009-11-13 P. Blasiak , A. Horzela , K. A. Penson , A. I. Solomon , G. H. E. Duchamp

The general normal ordering problem for boson strings is a combinatorial problem. In this note we restrict ourselves to single-mode boson monomials. This problem leads to elegant generalisations of well-known combinatorial numbers, such as…

Quantum Physics · Physics 2007-05-23 A. I. Solomon , P. Blasiak , G. Duchamp , A. Horzela , K. A. Penson

We discuss algebraic and combinatorial aspects of the Hamiltonian normal form theory. The main objective is to describe the normal form near a singular point purely in terms of the original Hamiltonian, avoiding the normalization procedure.…

Dynamical Systems · Mathematics 2026-05-05 Dmitry Treschev

In this communication, we consider the normal ordering of sums of elements of the form (a*^r a a*^s), where a* and a are boson creation and annihilation operators. We discuss the integration of the associated one-parameter groups and their…

Quantum Physics · Physics 2007-05-23 Gerard Duchamp , Karol A. Penson , Allan I. Solomon , Andrej Horzela , Pawel Blasiak

We solve the boson normal ordering problem for F[(a*)^r a^s], with r,s positive integers, where a* and a are boson creation and annihilation operators satisfying [a,a*]=1. That is, we provide exact and explicit expressions for the normal…

Quantum Physics · Physics 2009-11-10 Pawel Blasiak , Karol A. Penson , Allan I. Solomon

We present a combinatorial method of constructing solutions to the normal ordering of boson operators. Generalizations of standard combinatorial notions - the Stirling and Bell numbers, Bell polynomials and Dobinski relations - lead to…

Quantum Physics · Physics 2010-12-30 P. Blasiak , A. Gawron , A. Horzela , K. A. Penson , A. I. Solomon

We derive explicit formulas for the normal ordering of powers of arbitrary monomials of boson operators. These formulas lead to generalisations of conventional Bell and Stirling numbers and to appropriate generalisations of the Dobinski…

Quantum Physics · Physics 2007-05-23 Karol A. Penson , Allan I. Solomon

A mathematically rigorous Hamiltonian formulation for classical and quantum field theories is given. New results include clarifications of the structure of linear fields, and a plausible formulation for nonlinear fields. Many mathematical…

Mathematical Physics · Physics 2015-06-05 Luther Rinehart

In quantum mechanics, bosonic operators are mathematical objects that are used to represent the creation ($a^\dagger$) and annihilation ($a$) of bosonic particles. The natural power of a linear combination of bosonic operators represents an…

Quantum Physics · Physics 2023-05-30 Deepak , Arpita Chatterjee

We introduce two new binary operations with combinatorial species; the arithmetic product and the modified arithmetic product. The arithmetic product gives combinatorial meaning to the product of Dirichlet series and to the Lambert series…

Combinatorics · Mathematics 2007-05-23 Manuel Maia , Miguel Mendez

We solve the normal ordering problem for (A* A)^n where A* (resp. A) are one mode deformed bosonic creation (resp. annihilation) operators satisfying [A,A*]=[N+1]-[N]. The solution generalizes results known for canonical and q-bosons. It…

Quantum Physics · Physics 2009-11-10 P. Blasiak , A. Horzela , K. A. Penson , A. I. Solomon

In the present article, we review a continual effort on generalization of the Trotter formula to higher-order exponential product formulas. The exponential product formula is a good and useful approximant, particularly because it conserves…

Mathematical Physics · Physics 2011-11-10 Naomichi Hatano , Masuo Suzuki

We solve the boson normal ordering problem for (q(a*)a + v(a*))^n with arbitrary functions q and v and integer n, where a and a* are boson annihilation and creation operators, satisfying [a,a*]=1. This leads to exponential operators…

Quantum Physics · Physics 2009-11-11 P Blasiak , A Horzela , K A Penson , G H E Duchamp , A I Solomon

An axiomatic quantum field theory applied to the self-interacting boson field is realised in terms of generalised operators that allows us to form products and take derivatives of the fields in simple and mathematically rigorous ways.…

Mathematical Physics · Physics 2022-10-12 Alexei Filinkov , Ian G. Fuss

Although symmetry methods and analysis are a necessary ingredient in every physicist's toolkit, rather less use has been made of combinatorial methods. One exception is in the realm of Statistical Physics, where the calculation of the…

Quantum Physics · Physics 2007-05-23 Allan I. Solomon , Pawel Blasiak , Gerard Duchamp , Andrzej Horzela , Karol A. Penson

We show how series expansions of functions of bosonic number operators are naturally derived from finite-difference calculus. The scheme employs Newton series rather than Taylor series known from differential calculus, and also works in…

Quantum Physics · Physics 2021-01-25 Jürgen König , Alfred Hucht
‹ Prev 1 2 3 10 Next ›