解析量子涨落逻辑
胡唐锦,深圳大学
胡良,深圳市宏源清实业有限公司
摘要:宇宙中没有绝对的真空;因此,任何一个孤立量子体系(包括基本粒子)都在发生量子涨落;而产生的能量变化越大,其恢复的时间越快;这是由于背景空间(环境)的相对稳定性(惯性)决定的。量子与量子的背景空间(环境)已构成纠缠态,其总能量保持不变。整个系统并没有多出能量。也就是说,量子能量增加,则相应的背景空间(环境)能量减少;反之,量子能量减少,则相应的背景空间(环境)能量增加;而总能量保持守恒。
关键词:磁力,磁距,磁力距,自旋,磁场,背景空间,不确定性原理
作者:总工,高工,硕士,副董事长
1量子力学与量子涨落
宇宙中没有绝对的真空;因此,任何一个孤立量子体系(包括基本粒子)都在发生量子涨落;而产生的能量变化越大,其恢复的时间越快;这是由于背景空间(环境)的相对稳定性(惯性)决定的。
There is no absolute vacuum in the universe; therefore, any isolated quantum system (including elementary particles) is undergoing quantum fluctuations; and the greater the energy change, the faster the recovery time; this is due to the background space (environment) Determined by relative stability (inertia).
根据量子三维常数理论,Vp*C^(3)=h*C,量子与量子的背景空间(环境)已构成纠缠态,其总能量保持不变。
整个系统并没有多出能量。也就是说,量子能量增加,则相应的背景空间(环境)能量减少;反之,量子能量减少,则相应的背景空间(环境)能量增加;而总能量保持守恒。
According to the quantum three-dimensional constant theory, Vp*C^(3)=h*C, the background space (environment) of quantum and quantum has formed an entangled state, and its total energy remains unchanged.
The whole system does not have more energy. In other words, if the quantum energy increases, the corresponding background space (environment) energy decreases; conversely, if the quantum energy decreases, the corresponding background space (environment) energy increases; and the total energy remains conserved.
量子涨落从另一个角度证明,孤立量子系统是能量守恒的,并且系统的熵是单向增加的(热力学定律)。而对于开放的系统来说,能量是不守恒的;并且,系统的熵可增加,也可减少。
Quantum fluctuations prove from another angle that an isolated quantum system is energy-conserving and the entropy of the system increases in one direction (the law of thermodynamics). For an open system, energy is not conserved; moreover, the entropy of the system can increase or decrease.
量子涨落也证明宇宙是无穷大的;正是,由于宇宙是无穷大的;所以才有,不确定性原理。
换句话说,由于宇宙本身就是处于纠缠态,又是无穷大的;因此,宇宙中,不存在绝对的孤立量子体系;这意味着,任何一个孤立量子体系(包括基本粒子),其能量总是保持变化的;由于背景空间(环境)具有相对的稳定性,因此,体现为量子涨落。
Quantum fluctuations also prove that the universe is infinite; precisely, because the universe is infinite; therefore, there is the principle of uncertainty.
In other words, because the universe itself is in an entangled state and is infinite; therefore, there is no absolute isolated quantum system in the universe; this means that any isolated quantum system (including elementary particles) always maintains its energy Changing; because the background space (environment) is relatively stable, it is reflected in quantum fluctuations.
量子涨落并不违反能量守恒定律;因为,量子的涨落由量子内禀的属性与量子的背景空间(环境)共同决定。
Quantum fluctuation does not violate the law of conservation of energy; because the quantum fluctuation is determined by the intrinsic properties of the quantum and the background space (environment) of the quantum.