In combinatorial mathematics, a q-exponential is a q-analog of the exponential function,
namely the eigenfunction of a q-derivative. There are many q-derivatives, for example, the classical q-derivative, the Askey–Wilson operator, etc. Therefore, unlike the classical exponentials, q-exponentials are not unique. For example, is the q-exponential corresponding to the classical q-derivative while are eigenfunctions of the Askey–Wilson operators.
The q-exponential is also known as the quantum dilogarithm.[1][2]
Definition
editThe q-exponential is defined as
where is the q-factorial and
is the q-Pochhammer symbol. That this is the q-analog of the exponential follows from the property
where the derivative on the left is the q-derivative. The above is easily verified by considering the q-derivative of the monomial
Here, is the q-bracket. For other definitions of the q-exponential function, see Exton (1983), Ismail & Zhang (1994), and Cieśliński (2011).
Properties
editFor real , the function is an entire function of . For , is regular in the disk .
Note the inverse, .
Addition Formula
editThe analogue of does not hold for real numbers and . However, if these are operators satisfying the commutation relation , then holds true.[3]
Relations
editFor , a function that is closely related is It is a special case of the basic hypergeometric series,
Clearly,
Relation with Dilogarithm
edithas the following infinite product representation:
On the other hand, holds. When ,
By taking the limit ,
where is the dilogarithm.
References
edit- ^ Zudilin, Wadim (14 March 2006). "Quantum dilogarithm" (PDF). wain.mi.ras.ru. Retrieved 16 July 2021.
- ^ Faddeev, L.d.; Kashaev, R.m. (1994-02-20). "Quantum dilogarithm". Modern Physics Letters A. 09 (5): 427–434. arXiv:hep-th/9310070. Bibcode:1994MPLA....9..427F. doi:10.1142/S0217732394000447. ISSN 0217-7323. S2CID 119124642.
- ^ Kac, V.; Cheung, P. (2011). Quantum Calculus. Springer. p. 31. ISBN 978-1461300724.
- Cieśliński, Jan L. (2011). "Improved q-exponential and q-trigonometric functions". Applied Mathematics Letters. 24 (12): 2110–2114. arXiv:1006.5652. doi:10.1016/j.aml.2011.06.009. S2CID 205496812.
- Exton, Harold (1983). q-Hypergeometric Functions and Applications. New York: Halstead Press, Chichester: Ellis Horwood. ISBN 0853124914.
- Gasper, George; Rahman, Mizan Rahman (2004). Basic Hypergeometric Series. Cambridge University Press. ISBN 0521833574.
- Ismail, Mourad E. H. (2005). Classical and Quantum Orthogonal Polynomials in One Variable. Cambridge University Press. doi:10.1017/CBO9781107325982. ISBN 9780521782012.
- Ismail, Mourad E. H.; Zhang, Ruiming (1994). "Diagonalization of certain integral operators". Advances in Mathematics. 108 (1): 1–33. doi:10.1006/aima.1994.1077.
- Ismail, Mourad E. H.; Rahman, Mizan; Zhang, Ruiming (1996). "Diagonalization of certain integral operators II". Journal of Computational and Applied Mathematics. 68 (1–2): 163–196. CiteSeerX 10.1.1.234.4251. doi:10.1016/0377-0427(95)00263-4.
- Jackson, F. H. (1909). "On q-functions and a certain difference operator". Transactions of the Royal Society of Edinburgh. 46 (2): 253–281. doi:10.1017/S0080456800002751. S2CID 123927312.