International Journal of Nonlinear Analysis and Applications

On neutrosophic semi-regularization topological spaces

Document Type : Research Paper

Author

Department of Mathematics, College of Education for Pure Sciences, University of Basrah, Basra, Iraq

Abstract

In this work, the idea of neutrosophic semi-regularization of neutrosophic topology is shown, as well as some of its characteristics. We show that for any neutrosophic set in neutrosophic topological space is a neutrosophic regular generalized $\alpha$-closed set in $(\Psi, \tau)$ if and only if it is neutrosophic regular generalized closed set in  $ (\Psi, \tau^\alpha )$, where $\tau^\alpha$  is the family of all neutrosophic $\alpha$-open sets in $(\Psi, \tau).$

Keywords

[1] N.M.A. Abbas, S.M. Khalil and A.A. Hamza, On continuous and contra continuous mappings in topological spaces with soft setting, Int. J. Nonlinear Anal. Appl. 12 (2021), 1107—1113.
[2] S.A. Abdul-Ghani, S.M. Khalil, M. Abd Ulrazaq and A.F. Al-Musawi, New branch of intuitionistic fuzzification in algebras with their applications, Int. J. Math. Math. Sci. 2018 (2018).
[3] N.M. Ali Abbas, S M. Khalil and M. Vigneshwaran, The neutrosophic strongly open maps in neutrosophic bitopological spaces, J. Interdiscip. Math. 24 (2021), no. 3, 667–675.
[4] I. Arokiarani, R. Dhavaseelan, S. Jafari and M. Parimala, On some new notions and functions in neutrosophic topological spaces, Neutrosophic Sets Syst. 16 (2017), 16–19.
[5] K.T. Atanassov, Intuitionistic fuzzy sets, Fuzzy Sets Syst. 20 (1986), 87–96.
[6] K. Damodharan, M. Vigneshwaran and S.M. Khalil, Continuous and irresolute functions in neutrosophic topological spaces, Neutrosophic Sets Syst. 38 (2020), no. 1, 439–452.
[7] P.E. Ebenanjar, H.J. Immaculate and C.B. Wilfred, On neutrosophic b-open sets in neutrosophic topological space, J. Phys.: Conf. Ser. 1139 (2018), 012062.
[8] M.A. Hasan, S.M. Khalil and N.M.A. Abbas, Characteristics of the soft-(1, 2)-gprw–closed sets in soft bitopological spaces, Conf. IT-ELA, 2020, p. 103—108.
[9] M.A. Hasan, N.M. Ali Abbas and S.M. Khalil, On soft open sets and soft contra continuous mappings in soft topological spaces, J. Interdiscip. Math. 24 (2021), 729-–734.
[10] Q.H. Imran, F Smarandache, R.K. Al-Hamido and R. Dhavaseelan, On neutrosophic semi alpha open sets, Neutrosophic Sets Syst. 18 (2018), 37–42.
[11] S.M. Khalil and S.A. Abdul-Ghani, Soft M-ideals and soft S-ideals in soft S-algebras, IOP Conf. Series: J. Phys. 1234 (2019), 012100.
[12] S.M. Khalil and F. Hameed, Applications on cyclic soft symmetric, IOP Conf. Series: J. Phys. 1530 (2020), 012046.
[13] S.M. Khalil and A. Hassan, The characterizations of σ—algebras with their ideals, J. Phys.: Conf. Ser. 1999 (2021), 012108.
[14] S.M. Khalil and M.H. Hasab, Decision making using new distances of intuitionistic fuzzy sets and study their application in the universities, INFUS, Adv. Intell. Syst. Comput. 1197 (2020), 390—396.
[15] S.M. Khalil, Dissimilarity fuzzy soft pPoints and their applications, Fuzzy Inf. Eng. 8 (2016), 281—294.
[16] S.M. Khalil, M. Ulrazaq, S. Abdul-Ghani and A. Firas Al-Musawi, σ−algebra and σ−Baire in fuzzy soft setting, Adv. Fuzzy Syst. (2018), 5731682.
[17] S.M. Khalil and A. Hassan, Applications of fuzzy soft ρ− ideals in ρ-algebras, Fuzzy Inf. Eng. 10 (2018), 467-–475.
[18] S.M. Khalil and N.M.A. Abbas, On nano with their applications in medical field, AIP Conf. Proc. 2290 (2020), 040002.
[19] S.M. Khalil, E. Suleiman and N.M. Ali Abbas, New technical to generate permutation measurable spaces, IEEE, 2021, p. 160-–163.
[20] S.M. Khalil and N.M. Abbas, Applications on new category of the symmetric groups, AIP Conf. Proc. 2290 (2020), 040004.
[21] S.M. Khalil and A. Rajah, Solving the class equation x d = β in an alternating group for each β ∈ Hn ∩ C α and n ̸∈ θ, Arab J. Basic Appl. Sci. 10 (2011), 42—50.
[22] S.M. Khalil and A. Rajah, Solving class equation x d = β in an alternating group for all n ∈ θ&β ∈ Hn ∩ C α, Arab J. Basic Appl. Sci. 16 (2014), 38—45.
[23] S.M. Khalil and F. Hameed, An algorithm for generating permutations in symmetric groups using soft spaces with general study and basic properties of permutations spaces, J. Theor. Appl. Inf. Technol. 96 (2018), 2445—2457.
[24] C. Maheswari and S. Chandrasekar, Neutrosophic bg-closed Sets and its continuity, Neutrosophic Sets Syst. 36 (2020), no. 1, 108–120.
[25] A.R. Nivetha, M. Vigneshwaran, N.M. Ali Abbas and S.M. Khalil, On continuous in topological spaces of neutrosophy, J. Interdiscip. Math. 24 (2021), no. 3, 677–685.
[26] V. Rao and Y. Srinivasa, Neutrosophic pre-open sets and pre-closed sets in neutrosophic topology, Int. J. ChemTech Res. 10 (2017), no. 10, 449–458.
[27] S.M. Saied and S.M. Khalil, Gamma ideal extension in gamma systems, J. Discrete Math. Sci. Crypt. 24 (2021), no. 6, 1675–1681.
[28] A.A. Salama and S.A. Alblowi, Neutrosophic set and neutrosophic topological spaces, IOSR J. Math. 3 (2012), no. 4, 31–35.
[29] A.A. Salama, F Samarandache and K Valeri neutrosophic closed set and neutrosophic continuous functions, Neutrosophic Sets Syst. 4 (2014), 4—8.
[30] M.M. Torki and S.M. Khalil, New types of finite groups and generated algorithm to determine the integer factorization by excel, AIP Conf. Proc. 2290 (2020), 040020.
[31] L.A. Zadeh, Fuzzy sets, Inf. Control 8 (1965), 338–353.
International Journal of Nonlinear Analysis and Applications
Volume 13, Issue 2
July 2022
Pages 51-55
  • Receive Date: 06 December 2021
  • Revise Date: 15 January 2022
  • Accept Date: 04 February 2022