| 1. | Escaping time from potential wells of oscillatory systems
从振动系统势能井逃逸的时间 |
| 2. | The book is arguably a potential best seller
该书或可成为一部畅销书 |
| 3. | Using the graphic method to study two - dimensional square potential well
用图解法研究二维方势阱 |
| 4. | Chaos in the trigonal potential well subjected to a tilted magnetic field
斜磁场作用下三角形量子阱中的混沌 |
| 5. | On the eigen problem for the one - dimension infinite deep potential well by using numerov arithmetic
算法求解一维无限深势阱的本征问题 |
| 6. | The increase of the gravitational level makes the levitation potential wells shallower or even disappearing
重力水平的提高会使悬浮势阱变浅甚至消失。 |
| 7. | When the currents applied to the various wires are modulated in an appropriate way , a series of potential wells moves across the chip surface
适当调整导线上的电流后,就会有一连串的位能阱在晶片表面移动。 |
| 8. | Solutions to schroedinger ' s equation in one dimension : transmission and reflection at a barrier , barrier penetration , potential wells , the simple harmonic oscillator
维薛丁格方程式的解:位垒的穿透及反射,位垒渗透,位能井,简谐振子。 |
| 9. | Problem set 5 : shape of the limiting distribution for unbiased , subdiffusive ctrw ; mean escape time from a symmetric potential well , low temperature asymptotics
问题5 :不偏的次ctrw极限公布的形状;从对称型势位能逃脱平均时间,低温尽近似。 |
| 10. | Compare the system ' s classical chaos motion between the double - potential well in the tiled magnetic field and that of potential well including biquadratic term
比较了倾斜磁场作用下的双势阱和含有4次方的势阱两种情况下系统的经典混沌运动特征。 |
