粒子物理学理论预言暗能量的强度要比观测到的大约大120个数量级,而广义相对论不能解释这个巨大的差异。
The theories of particle physics predict the strength of dark energy to be about 120 orders of magnitude larger than what is observed, and general relativity cannot explain this enormous discrepancy.
然而,量子计算预示着宇宙中总真空能量应比已被观测到的能量高出一百多个数量级。
Quantum calculations, however, predict that the amount of vacuum energy in the universe should be more than a hundred orders of magnitude greater than has been observed.
从能量角度用数量级估计的方法分析数种重要的感度试验数据,提出临界热能密度的概念。
Data on several important sensitivity tests are analyzed again by a method of magnitude order estimation, then a concept on the critical thermal energy density is formulated.
应用推荐