EPR paradox

  • 网络佯谬;EPR佯谬;爱波罗悖论;爱因斯坦-波多尔斯基-罗森悖论
EPR paradoxEPR paradox
  1. From EPR Paradox , Bell 's Inequality to Quantum Information Theory

    从EPR思维、Bell不等式到量子信息学

  2. There is no EPR Paradox in the two - wave interpretation .

    在双波描述中不存在EPR佯谬。

  3. Paper A Discussion about ' Two Wave Interpretation of EPR Paradox ' has mistakes in it .

    论文再论‘EPR问题的双波解答’是错误的。

  4. EPR Paradox is due to the interpretation that single wave can interpret completely the single system .

    EPR倦谬是由于我们认为单个波函数可完全描述单个体系而引起的。

  5. Optimum realization of the EPR paradox in the non-degenerate parametric amplification system

    在非简并参量放大系统中EPR佯谬的最佳实现

  6. All these results can be used to analysing the quantum optics experiments of EPR Paradox .

    这些结果可直接用来分析EPR问题的量子光学实验。

  7. Two-Wave Interpretation of EPR Paradox

    EPR问题的双波解答

  8. In this paper , we use the solution of the Fokker-Planck equation for non-degenerate parametric amplification to deduce the condition of demonstration of the EPR paradox .

    利用非简并参量放大系统中Fokker-Planck方程的解来推导实现EPR佯谬的条件。

  9. Firstly , the proposition and definition of quantum entangled states , EPR paradox and Bell inequality , and several kinds of entangled states , as well as their properties , are given .

    简述了量子纠缠态的提出和定义,EPR佯谬和Bell不等式;

  10. The long-distance correlation experiment in quantum system originated in the EPR paradox , Results of the experiment ran counter to the theory of local hidden variables and provided experiment facts for the incomplete determinism in quantum theory .

    量子体系的远距离关联实验起源于EPR佯谬,实验的结果违反了定域隐变量理论,为量子理论中的非完全决定论提供了实验事实。

  11. The numerical simulation shows that the optimum realization of EPR paradox can be achieved by adjusting the degree of squeezing , and this is the best condition for demonstrating the EPR paradox for a given finite loss k.

    数值模拟表明,当损耗k有限时,可以通过调整压缩度来获得EPR佯谬的最佳值。

  12. Einstein and his partners published a paper in 1935 ( called EPR paradox in history ) . In this paper they acutely criticized the classical interpretation of quantum mechanics ( Copenhagen interpretation ) . This was the first time to give the conception what the inseparable states were .

    1935年Einstein等提出了EPR佯谬,对正统量子力学基本原理和概念的诠释(Copenhagen诠释)提出了尖锐的批评,这也是第一次给出了有关态的纠缠性的原始概念。

  13. EPR Relevance And Paradox of Quantum

    EPR关联和量子佯谬