1 |
L.K. Arora and U.K. Saha, Integrals involving Hypergeometric function and H-function, J. Indian Acad. Math., 32(1) (2010), 243-249.
|
2 |
A. Bhargava, A. Srivastava and R. Mukherjee, Some integrals involving I-function and Wright's generalized Hypergeometric function, Casp. J. of App. Math., Ecology and Economics, 3(1) (2015), 3-11.
|
3 |
J. Choi and D. Kumar, Certain unified fractional integrals and derivatives for a product of Aleph function and a general class of multivariable polynomials, J. Inequal. Appl., 2014:499, (2014), 1-15.
|
4 |
D. Kumar, Generalized fractional differintegral operators of the Aleph function of two variables, Journal of Chemical, Biological and Physical Sciences, Section C, 6(3) (2016), 1116-1131.
|
5 |
D. Kumar, Certain integrals of generalized hypergeometric and con uent hyper-geometric functions, Sigmae, 5(2) (2017), 8-18.
|
6 |
D. Kumar and F.Y. Ayant, A unified study of Fourier series involving the Aleph-function and the Kampe de Feriet's function, Int. J. Math. Trends Technol., 35(1) (2016), 40-48.
DOI
|
7 |
D. Kumar and J. Choi, Generalized fractional Kinetic equations associated with Aleph function, Proc. Jangjeon Math. Soc., 19(1) (2016), 145-155.
|
8 |
D. Kumar, R.K. Gupta and B.S. Shaktawat, Certain results on extended generalized -Gauss hypergeometric function, Honam Mathematical J., 38(4) (2016), 739-752.
DOI
|
9 |
D. Kumar, R.K. Gupta, B.S. Shaktawat and J. Choi, Generalized fractional calculus formulas involving the product of Aleph-function and Srivastava polynomials, Proc. Jangjeon Math. Soc., 20(4) (2017), 701-717.
|
10 |
D. Kumar, R.K. Saxena and J. Ram, Finite integral formulas involving Aleph function, Bol. Soc. Parana. Mat., 36(1) (2018), 177-193.
DOI
|
11 |
A.M. Mathai, R.K. Saxena, and H.J. Haubold, The H-Function: Theory and Applications, Springer, New York, 2010.
|
12 |
E.D. Rainville, Special Functions, Chelsea Publishing Co., Bronx, New York, 1971.
|
13 |
J. Ram and D. Kumar, Generalized fractional integration of the N-function, J. Raj. Acad. Phy. Sci., 10(4) (2011), 373-382.
|
14 |
L.J. Slater, Generalized Hypergeometric functions, Cambridge University Press, 1966.
|
15 |
U.K. Saha, L.K. Arora and B.K. Dutta, Integrals involving I-function, Gen. Math. Notes, 6(1) (2011), 1-14.
|
16 |
V.P. Saxena, Formal solution of certain new pair of dual integral equations involving H-functions, Proc. Nat. Acad. Sci. India Sect., A 51 (1982), 366-375.
|
17 |
R.K. Saxena and D. Kumar, Generalized fractional calculus of the Aleph function involving a general class of polynomials, Acta Math. Sci. Ser. B, 35(5) (2015), 1095-1110.
DOI
|
18 |
R.K. Saxena and T.K. Pogany, Mathieu-type series for the Aleph-function occurring in Fokker-Planck equation, Eur. J. Pure Appl. Math., 3(6) (2010), 980-988.
|
19 |
R.K. Saxena and T.K. Poany, On fractional integration formulae for Aleph functions, Appl. Math. Comput., 218 (2011), 985-990.
DOI
|
20 |
N. Sudland, B. Baumann and T.F. Nannenmacher, Open problem: Who knows about the Aleph(N)-function, Appl. Anal., 1(4) (1998), 401-402.
|
21 |
N. Sudland, B. Baumann and T.F. Nannenmacher, Fractional driftless Fokker-Planck equation with power law diusion coecients, in V.G. Gangha, E.W. Mayr, W.G. Vorozhtsov (Eds.), Computer Algebra in Scientific Computing (CASC Konstanz 2001) Springer, Berlin, (2001), 513-525.
|
22 |
D.L. Suthar and S. Agarwal, Marichev-Saigo-Maeda fractional integration operator associated with Srivastava's polynomial and Gauss hypergeometric functions, Konuralp J. Math., 5(1) (2016), 145-160.
|