DOI: 10.1140/epjc/s10052-026-15978-5 ISSN: 1434-6052
Accelerating electrically charged ModMax black hole solutions in F(R) gravity
B. Eslam Panah, N. Heidari, Á. Rincón Abstract
Using the
$$C-$$
C
-
metric in the context of
F
(
R
) gravity coupled with the ModMax nonlinear electromagnetic field (the
$$F(R)-$$
F
(
R
)
-
ModMax theory), we derive an exact black hole solution in a four-dimensional spacetime. We then examine how various parameters influence the behavior of accelerating ModMax black holes. Treating this black hole as a thermodynamic system, we calculate the Hawking temperature and entropy for the accelerating ModMax black holes within the framework of
F
(
R
) gravity. Subsequently, we explore the impact of the parameters in
$$F(R)-$$
F
(
R
)
-
ModMax theory on the Hawking temperature and entropy. We also assess local stability by analyzing the heat capacity. Additionally, we investigate both the angular shadow and the shadow radius of an accelerating black hole in the context of
$$F(R)-$$
F
(
R
)
-
ModMax gravity.