Quantum black hole

Quantum black holeQuantum black hole
  1. The Classical Black Hole Quantum Black Hole and Its Thermal Property

    经典黑洞量子黑洞及其热性质

  2. Unfortunately , at present no one is smart enough to solve the problem of a quantum black hole .

    不幸的是,目前没有人聪明到解决问题的量子黑洞。

  3. We discuss thermal radition and is heat perty of quantum black hole .

    阐述了量子黑洞的热辐射及其热性质;

  4. Several groups of physicists independently announced that string theory can completely solve the problem of a quantum black hole .

    物理学家几个小组独立地宣布,弦理论能彻底解决问题的量子黑洞。

  5. We find that the temperature of the quantum black hole of the Brans type 1 is singular .

    发现Brans类型1量子化后的黑洞温度是奇异的。

  6. Quantum Schwarzschild black hole and dark matter

    量子史瓦茨黑洞和暗物质

  7. We improve this method , and obtain the correct quantum correction of black hole entropy via tunneling method .

    经过我们的完善后,隧穿方法就可以得到黑洞相关热力学性质量子修正的正确结果。

  8. The Thermal Characters of Quantum Field Near the Black Hole

    黑洞附近量子场的热性质

  9. Quantum Statistical Entropy of Black Hole

    黑洞的量子统计熵

  10. Quantum entropy of cylindrical black hole in Anti-de Sitter space-time

    Anti-DeSitter时空内柱黑洞的量子熵

  11. 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 .

    用brickwall模型研究了AntideSitter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。

  12. It is shown that when - Λ r 3 H > 3m / 2 , the spin of the neutrinos leads to a positive additional term in the quantum entropy of the black hole ;

    结果表明,-∧r3h>3m/2时,中微子自旋使黑洞量子熵增大;

  13. Nonetheless there are still some fundament issues that can be investigated even the absence of the full-developed quantum theory , say , what is the quantum spectrum of the black hole .

    然而即使在缺乏成熟的量子引力理论时,我们也可以讨论一些基本问题,比如黑洞可观测参量的量子谱。

  14. These calculation and discussion imply that the high density quantum states near the event horizon are strongly correlated with the quantum states in black hole and the ultraviolet cut-off in the brick-wall model is not reasonable .

    计算和讨论表明:黑洞事件视界外部附近的高密度量子态与黑洞内部有强关联,brick-wall模型中的紫外截断是不合理的。