摘要
在文[1]的基础上,进一步论证了黑洞熵可能是量子化的,其量子单位为2πKB;(1)由粒子的Compten波长在黑洞视界内的量子化条件导出了黑洞熵增量子化;(2)指出了2πKB比Mukhanov[2]提出的黑洞熵的量子单位(ln2)KB更合理,(3)根据对黑洞吸收粒子的分析,对黑洞的熵值作了计算,得出黑洞熵的表达式,从而对黑洞的高熵值提出了一种较好的解释.
A further investigation on the quantization of black-hole entropy which is of quantum unit, 2πKB, is given baed on ref.[1].(1 )The quantization of entropy increase of a black hole is derived by quantization condition of a partiCle's Compton wavelength within the horizon range of the black hole.(2) It is pointed out that 2πKB is a more reasonable quantum unit for black-hole entropy than (ln2) KB proposed by Mukhanov [2].(3) An estimation for Schwarzschild black-hole entropy is given and a possible explanation for the enormous value of black-hole entropy is provided by vine of the analysis of a black hole's absorbing individual particles.
出处
《中南民族大学学报(自然科学版)》
CAS
1994年第2期30-34,共5页
Journal of South-Central University for Nationalities:Natural Science Edition
关键词
黑洞
黑洞熵
量子化
black holes
black hole entropy
quantization