Abstract
We consider the regular black holes (BHs) solution with cosmic strings (RBHCS) in the rotation parameter by assuming the Newman–Janis method. After this, we study thermodynamical property (i.e. Hawking temperature [Formula: see text]) for the RBHCS in the presence of spin parameter. Moreover, we study the graphical interpretation of Hawking temperature with event horizon to check the physical and stable form of RBHCS under the effect of Newman–Janis algorithm. We graphically show that the RBHCS in the context of Newman–Janis algorithm are colder than the Schwarzschild BH. Furthermore, we investigate the quantum-corrected temperature for RBHCS in Newman–Janis method by incorporating generalized uncertainty principle. We have also analyzed the graphical interpretation of corrected temperature [Formula: see text] versus [Formula: see text] and study the stable condition of RBHCS in Newman–Janis method in the presence of gravity parameter effects. Finally, the corrected entropy for RBHCS with rotation parameter is analyzed.
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