Black hole evaporation and its remnants with the generalized uncertainty principle including a linear term

Bo Yu, Zheng-Wen Long
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Abstract

In recent years, researchers have investigated the evaporation of Schwarzschild black holes using various forms of the generalized uncertainty principle (GUP), metric quantum correction, and non-commutative geometry, respectively. However, there are differences between the GUP correction and the other two methods in terms of describing the later stages of black hole evaporation. Furthermore, some studies argue that the GUP with a negative parameter cannot effectively correct for black hole evaporation, while others contend that the positivity or negativity of the GUP parameters should not affect the correction results. Taking the above into consideration, we reconsider black hole evaporation with the generalized uncertainty principle including a linear term (LGUP), and examine the case of negative parameters. The results indicate that the evaporation behavior of both Schwarzschild black holes and Reissner-Nordström black holes, under LGUP correction, is consistent with the results of metric quantum correction and non-commutative geometry. Additionally, the negative parameter LGUP can also effectively correct for black hole evaporation.
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包含线性项的广义不确定性原理下的黑洞蒸发及其残留物
近年来,研究人员分别利用广义不确定性原理(GUP)、度量量子修正和非交换几何等不同形式研究了施瓦兹柴尔德黑洞的蒸发。然而,在描述黑洞蒸发的后期阶段方面,广义不确定性原理修正与其他两种方法存在差异。此外,一些研究认为负参数的GUP不能有效地修正黑洞蒸发,而另一些研究则认为GUP参数的正负不应该影响修正结果。考虑到上述情况,我们用包含线性项的广义不确定性原理(LGUP)重新考虑了黑洞蒸发问题,并研究了负参数的情况。结果表明,在 LGUP 修正下,施瓦兹柴尔德黑洞和赖斯纳-诺德斯特伦黑洞的蒸发行为与度量量子修正和非交换几何的结果一致。此外,负参数 LGUP 也能有效地修正黑洞蒸发。
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