| چکیده
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We use the extended uncertainty principle (EUP) in order to obtain the R´enyi entropy
for a black hole (BH). The result implies that the non-extensivity parameter, appearing in the
R´enyi entropy formalism, may be evaluated from the considerations which lead to EUP. It is also
shown that, for excited BHs, the R´enyi entropy is a function of the BH principal quantum number,
i.e., the BH quantum excited state. Temperature and heat capacity of the excited BHs are also
investigated addressing two phases while only one of them can be stable. In this situation, whereas
entropy is vanishing, temperature may take a non-zero positive minimum value, depending on the
value of the non-extensivity parameter. The evaporation time of excited BH has also been studied.
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