Основні поняття
宇宙的膨脹速率(哈伯常數)可能與宇宙的量子複雜度之間存在關聯,暗示著宇宙的演化與其複雜度的增長息息相關。
Статистика
早期宇宙觀測得到的哈伯常數值為 H0 = 67.4 ± 0.5 km s−1Mpc−1。
晚期宇宙觀測得到的哈伯常數值為 H0 ≥ 70 km s−1Mpc−1。
最新的 SHOES 觀測結果為 H0 = 73.2 ± 1.3 km s−1Mpc−1。
早期和晚期觀測結果之間的差異在統計學上相當於 4σ 到 6σ,具體取決於所考慮的數據集。
Цитати
"A type IIB string theory living in a classical AdS bulk must emerge from quantum entanglement correlations, without correlata, described by abstract spin networks, in the limit where the number of correlations becomes large."
"If the computational complexity is less than the maximum, then with the overwhelming likelihood it will increase, till it saturates at a maximal value."
"The difference between the values obtained to H0 when one considers early and late-time measurements must be only a testimony that our universe has evolved from a relatively simple state at their early times to a very complex place containing structures like galaxies, stars, quasars, and black holes."