| 1. | But quantum fluctuations change the situation
可是量子涨落改变了情况。 |
| 2. | The fluctuations take the form of pairs of virtual photons
量子涨落以虚光子对的形式出现。 |
| 3. | Higher - order fluctuation of the dissipative mesoscopic circuit with coupled inductor
耗散电感耦合电路的高阶量子涨落 |
| 4. | Double - wave quantum theory and quantum fluctuation of adomain wall in the ferromageitc system
铁磁系统中介观畴壁的双波描述及量子涨落 |
| 5. | And the quantum fluctuation of charge and current in the mesoscopic circuit in squeezed states are strdied , too
还讨论了在压缩态下的电荷和电流的量子涨落。 |
| 6. | The properties of the quantum current and the quantum energy spectrum have been investigated , and the effects of the parameters on the quantum fluctuations are analysed
研究介观金属环中量子电流、量子能谱的性质,分析影响量子涨落的因素。 |
| 7. | In the forth chapter , we study the behavior of magnetization and the specific heat in the ferromagnetic xxz chain under external magnetic field
另外我们还研究了系统中的量子涨落。第四章中,我们考察亚铁磁xxz链在外磁场下的磁化和比热行为。 |
| 8. | According to quantum theory , even a perfect vacuum is not truly empty ; it is filled with fluctuations as a result of the heisenberg uncertainty principle
根据量子理论中的海森堡测不准原理,就算是完美的真空也不是空无一物,而是充满了量子涨落。 |
| 9. | In this paper , the quantization of dissipative mesoscopic circuit with coupled inducotors is given and higher - order puantum fluctuation of the charge and curret are obtained
摘要给出耗散电感耦合电路的量子化,在此基础上研究电荷及电流在能量本征态下的高阶量子涨落。 |
| 10. | In particular , squeezing effects , due to the quantum fluctuation of one quadrature phase smaller than that in coherent state , can be used in optical communication and other fields
特别是具有压缩效应的量子态,由于在压缩态中光场振幅的量子涨落小于相干态相应的量子涨落,使得它在光通讯等领域有着广阔的应用前景。 |
