摘要
用“brick wall”模型研究了Anti deSitter时空中起源于电磁和引力场的黑洞量子熵的发散结构 ,结果表明量子熵由线性发散项和对数发散项构成 .如果平衡温度选为Hawking温度 ,固有截断替代坐标截断 ,则线性发散项可化为正比于事件视界面积的形式 ;而对数发散项不仅依赖于黑洞的特征 ,也依赖于场的自旋 ,由于此项的存在 ,自旋场的贡献不再与标量场的贡献成正比 .
Divergence structure for the quantum entropy of a black hole in Anti-de Sitter spacetime due to the electromagnetic and gravitational fields is investigated by using the brick-wall model. The entropy has both linearly and logarithmically divergent terms, where the linearly divergent term can reduce to the form proportional to the event horizon area if the temperature is replaced by the Hawking temperature and the coordinate cutoff is replaced by the proper cutoff; while the logarithmic divergences not only depend on the characteristics of the black hole but also on the spin of the fields. Since this term exists, the contribution of a spin field in general is not proportional to the scalar one.
出处
《物理学报》
SCIE
EI
CAS
CSCD
北大核心
2004年第7期2065-2068,共4页
Acta Physica Sinica
基金
国家自然科学基金 (批准号 :10 3 75 0 5 1)资助的课题~~
关键词
发散结构
黑洞
量子熵
发散结构
电磁
引力场
divergence structure, black hole entropy, AdS spacetime, electromagnetic and gravitational fields
