研究了在连续CO_2激光辐照下不锈钢表面的温度涨落特性。
The temperature fluctuation of the stainless steel irradiated by a CW CO_2 laser is studied.
一般的均涨理论预测了大的背景温度涨落,但是我们并没有观测到这样的涨落。
Generic inflation predicted large temperature fluctuations, but we don't see these.
电子密度梯度直接影响密度涨落,并通过杂质辐射与温度涨落相互耦合,进而影响静电势涨落。
During the impurity radiation, the density perturbation driven by density gradient couples with the temperature one and then affects the electrostatic potential one.
随着温度增高,电阻率的变化可用声子及局域自旋涨落的散射来解释。
The change of the resistivity with increasing temperature can be interpreted in terms of the phonon and the local spin fluctuation scattering.
结果表明,介观无损耗传输线中电流的量子涨落不仅与电路的参数有关,还与传输线所处的环境温度有关。
It is shown that the quantum fluctuations depend on not only the parameters of the transmission line but also the environmental temperature t.
根据层间耦合作用对二维自旋涨落的抑制程度,我们确定了一个反映体系层状结构特点的特征温度T_0,并由此将低温区t。
According to the suppressing extent of interlayer coupling on the two-dimensional spin fluctuations, we determine a characteristic temperature T0, divide low temperature region t.
由此,研究了热压缩态中测量相位涨落的两种压缩及其与温度的关系。
From these, we investigate two kinds of squeezing of fluctuations for measured phase in thermal squeezed states and their relations to temperature.
通过将热场动力学推广到含时体系,研究了有限温度下介观含时LC电路中的量子涨落。
By extending the thermal field dynamics to the time dependent system, quantum fluctuations of the time dependent mesoscopic LC electric circuit at finite temperature were studied.
结果表明,各支路电流电压的量子涨落均与电路器件的参数以及温度有关。
The result shows that the quantum fluctuations of the voltage and current of each branch are related with parameter of the circuit element, and also related with temperature and decayed with time.
在确定的温度下,系统将处在混合态,进一步得到有限温度下含源介观LC电路的量子涨落。
In a definite temperature, the system will be in a mixed state, further, we obtain the quantum fluctuations in mesoscopic LC circuit with a power source in a finite temperature.
在确定的温度下,系统将处在混合态,进一步得到有限温度下含源介观LC电路的量子涨落。
In a definite temperature, the system will be in a mixed state, further, we obtain the quantum fluctuations in mesoscopic LC circuit with a power source in a finite temperature.
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