1) vacuum fluctuation particles (vacufluctons)
真空涨落子
2) vacuum fluctuation
真空涨落
1.
Based on the postulates of vacuum fluctuation,a model of gravitational space is proposed,and the inverse-square law of gravity is deduced,the mechanism of gravitational red shift is interpreted with the same result given by Einstein s general theory of relativity.
在真空涨落基本假设的基础上,提出物质周围的引力空间模型,以此推演引力的距离反平方公式,并解释引力红移形成的机制,计算结果与广义相对论一致。
2.
Based on the three postulates of vacuum fluctuation and the deductions of the preconditions of relativity and quantum mechanics,the basic conclusions of special theory of relativity such as mass-velocity relation,mass-energy equation,energy-momentum relation,time dilation and length contraction are further deduced.
根据真空涨落的三个基本假设及其关于相对论和量子力学基本前提的推论,进一步推演运动物质的质速关系、质能方程、能量与动量关系、时间延缓、长度收缩等有关狭义相对论的基本结论。
3.
Based on the three postulates of vacuum fluctuation, the preconditions of relativity and quantum mechanics, including velocity limit of any moving particle and energy-frequency relation as well as de Broglie wavelength expression of any matter are reached, and the significance of the study of vacuum fluctuation in the unification of physics theories is indicated.
提出真空涨落的三个基本假设 ,据此推演运动物质的速度极限、能量与频率的关系以及德布罗意波长表达式 ,以此揭示相对论量子力学共同的物理基础 ,并指出真空涨落的研究在实现物理学理论统一上的重要意义 。
3) vacuum fluctuations
真空涨落
1.
Examined the fluctuations of the quantized electromagnetic fields between two parallel reflecting plane boundaries, and calculated the effects of vacuum fluctuations on the motion of a charged test particle.
考虑了两块平行的全反射平面之间的真空电磁场涨落,计算了真空涨落对带电试验粒子运动的影响,发现两块板的真空涨落对试验粒子运动的影响比一块板的影响更明显、更容易测量。
2.
Mechanisms such as vacuum fluctuations, radiation reaction, or a combina-tion of them have been put forward to explain why spontaneous emission occurs.
真空涨落,辐射反作用,或者二者的联合被提出来解释自发发射的原因,在Heisenberg图象方法中,物理解释的不确定性源于原子和场不同对易算符次序的选择。
3.
In quantum radiation theory, many physical observables always change with time and the cause is attributed to contributions of vacuum fluctuations and radiation reaction.
在量子辐射理论中,人们把物理量的变化归结为真空涨落和辐射反作用两部分的贡献,如果一个原子处在量子场中,那么原子的各个物理量的变化就是由这两者引起的。
4) quantum fluctuations of space time
时空量子涨落
5) Quantum fluctuation
量子涨落
1.
Quantization and quantum fluctuations in a damped time-dependent inductive coupled electric circuit;
含时阻尼电感耦合电路的量子化和量子涨落
2.
Quantum fluctuation of a mesoscopic inductance-resistance coupled circuit with power source in squeezed vacuum state;
压缩真空态下有源电感耦合电路电荷和电流的量子涨落(英文)
3.
Antithetic property of quantum fluctuations in mesoscopic second order circuit;
介观二阶电路量子涨落的对偶性
6) quantum fluctuations
量子涨落
1.
Thequantum fluctuations of the charge and current of the circuit in coherent state werestudied, the results show that the quantum fluctuations in the two circuits arecorrelated with each other, and the results are analysed and discussed.
提出了电感耦合电路的一种量子化方案,研究了电路中电荷和电流在相干态下的量子涨落,结果表明两个回路中的量子涨落是相互关联的,并对结果进行了讨论。
2.
On the basis of the charge discreteness,the quantum fluctuations fo the charge,current and energy in the mesoscopic metal dual rings are calculated by the minimum shift operator.
基于电荷离散化的事实,运用最小平移算符的性质,计算介观金属双环系统中电荷、电流以及能量的量子涨落,研究影响量子涨落的因素。
3.
On the basis of the charge quantization,the quantum fluctuations of the charge,the current and the energy in the dissipative mesoscopic circuit are calculated by the character of the minimum shift operator.
基于电荷离散化的事实,应用最小平移算符的性质,计算耗散介观电路中电荷、电流及能量的量子涨落。
补充资料:浓度涨落
分子式:
CAS号:
性质:在均匀的多组分体系中,任取一体积元△V,由于分子的热运动,每时每刻都有一些分子进入或离开这个体积元,进入体积元的分子数和离开体积元的分子数不会正好相等,体积元中的分子数将是不断地变化着,偏离统计平均值,这种现象称为涨落。对于纯物质,体系的体积元中分子数的涨落引起的是密度涨落,而对于多组分体系,密度涨落的同进还有浓度的涨落。由于浓度和密度是与体积元的折射率相关的,故它们的涨落必将导致折射率的变化,而表现为光学不均匀性,这正是聚合物或多组分体系光散射现象的根源。
CAS号:
性质:在均匀的多组分体系中,任取一体积元△V,由于分子的热运动,每时每刻都有一些分子进入或离开这个体积元,进入体积元的分子数和离开体积元的分子数不会正好相等,体积元中的分子数将是不断地变化着,偏离统计平均值,这种现象称为涨落。对于纯物质,体系的体积元中分子数的涨落引起的是密度涨落,而对于多组分体系,密度涨落的同进还有浓度的涨落。由于浓度和密度是与体积元的折射率相关的,故它们的涨落必将导致折射率的变化,而表现为光学不均匀性,这正是聚合物或多组分体系光散射现象的根源。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条