利用这一联系,提出了GF(4)上的经典常数循环码满足迹内积自正交的充要条件,从而构造出了对应的量子常数循环码。
Based on this connection, one method for constructing quantum constacyclic codes is presented by finding self-orthogonal classical constacyclic codes over the field GF(4) under a trace inner product.
凸显量子理论和相对论冲突的地方之一是引力常数g,这个量描述引力的强度。
One area where the conflict between quantum theory and relativity comes to the fore is in the gravitational constant, g, the quantity that describes the strength of gravity.
一些理论物理学家认为宇宙的量子本质应该在“普朗克常数”范围内:即十的负三十五次方米,而一毫米才不过十的负三次方米。
Some theories suggest that the quantum nature of space should manifest itself at the ‘Planck scale’: the minuscule 10-35 of a metre, where a millimetre is 10-3 m.
清单2显示具有4个元素的阵列构造函数,其值分别由NULL常数、变量、文字和标量子查询提供。
Listing 2 shows an array constructor with four elements with values given by the NULL constant, a variable, a literal and a scalar sub-query, respectively.
天文学家于1998年发现到宇宙正在加速膨胀,但其加速度所对应到的宇宙常数,却是量子理论预测值的10- 120倍。
In 1998 astronomers discovered that the universe's expansion is accelerating at a rate consistent with a cosmological constant 10-120 times the value predicted by quantum theory.
它的最重要的物理意义在于证明了微观物理学中的物理常数以及微观粒子的量子物理特性数值是宇宙总尺度物理特性的反映。
The most significance of this equation is to reveal a close relation between physical constants, quantum properties of elementary particles and general physical properties of the universe.
在测定其荧光寿命及荧光量子产率基础上计算出它们的辐射及非辐射衰变速度常数。
On the base of fluorescence quantum yield and lifetime measurement, the rate constants of radiation decay and non radiation decay of this compound were calculated.
应用多尺度微扰理论,对于弱耦合常数的六次非简谐振子得到了其运动方程的经典和量子情况下的一阶解。
Classical and quantum oscillators of quartic anharmonicity are solved analytically up to the second power of (weak-coupling constant) by using the multiple-scale perturbation theory.
本文用超空间方法对其有宇宙学常数的二维诱生引力进行量子化。
The two dimensional theory of induced gravity with cosmological constant is quantized in the superspace approach.
而增加转动量子数不利于反应的进行。同时也计算了该反应的反应截面和速率常数。
The rate constants and the reaction cross sections for the title reactions have also been computed.
数值计算结果表明,杂质结合能不仅依赖于电子有效质量和材料的静态介电常数,而且对没有外加势场时量子阱中电子几率密度的空间分布也很敏感。
The numerical results show that the binding energy depends on not only the effective mass and dielectric constant but also the spatial distribution of the electron probability density.
利用经典过渡态理论,考虑量子化矫正,计算了反应的速率常数。
Considering the quantum correction, the reaction rate constants were calculated using classical transition state theory.
利用经典过渡态理论,考虑量子化矫正,计算了反应的速率常数。
Considering the quantum correction, the reaction rate constants were calculated using classical transition state theory.
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