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Change Of Coupling Mechanism In The Low-Frequency Noise Of RuO_(2)-Glass Films

机译：RUO_（2）胶片膜低频噪声耦合机制的变化

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Measurements of noise spectra in the range 1K - 300K show that spectral and temperature slopes obey Dutta Dimon and Horn equation [Phys. Rev. Lett. 43, 646 (1979)] only in the range T > 10 K. Below this temperature a gap of constant width opens between noise exponent calculated from the spectral slope and from temperature dependence of noise magnitude. This gap occurs due to the change of noise coupling mechanism that takes place at approx=10 K. At higher temperatures this coupling is temperature independent, possibly modulation of the rates for tunneling transitions. At lower temperatures coupling becomes temperature dependent. It is shown that data agree quantitatively with the concept that noise sources modulate energies of thermally activated process.

机译：1K-300K范围内噪声光谱的测量表明，光谱和温度斜坡服从Dutta Dimon和Horn方程[Phys。 rev. lett。 43,646（1979）]仅在T> 10 K的范围内。低于该温度，恒定宽度的间隙在由光谱斜率计算的噪声指数和噪声幅度的温度依赖性之间打开。由于在大约= 10k的噪声耦合机构的变化发生的情况下发生这种间隙。在较高温度下，该耦合是温度独立的，可能调制隧道过渡的速率。在较低温度下，偶联变为温度依赖性。结果表明，数据定量地与噪声源调制热激活过程的能量的概念相加。

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《International Conference on Noise and Fluctuations 》|2007年||共4页
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作者
A. Kolek; A.W. Stadler; Z. Zawislak; K. Mleczko; P. Ptak; D. Zak; P. Szalanski;
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中图分类 TB9-53;
关键词
Thick film resistors; ruthenium dioxide; low frequency noise; thermally activated kinetics;

机译：厚膜电阻;二氧化钌;低频噪声;热激活的动力学;

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1. Low-frequency 1/f noise of RuO_2-glass thick resistive films [J] . A. Kolek, A. W. Stadler, P. Ptak, Journal of Applied Physics . 2007 ,第10期

机译：RuO_2玻璃厚电阻膜的低频1 / f噪声
2. Mechanisms for conduction via low-frequency noise measurements of high-T/sub c/ thin-film microbridges [J] . Nguyen T., OCallaghan J.M. IEEE Transactions on Applied Superconductivity . 1995 ,第2期

机译：通过高T / sub c /薄膜微桥的低频噪声测量进行传导的机制
3. Mechanisms for conduction via low-frequency noise measurements of high-Tc thin-film microbridges [J] . Nguyen T., OCallaghan J.M., Davidson B.A., IEEE Transactions on Applied Superconductivity . 1995 ,第2期

机译：通过高Tc薄膜微桥的低频噪声测量进行传导的机制
4. Change Of Coupling Mechanism In The Low-Frequency Noise Of RuO_(2)-Glass Films [C] . A. Kolek, A.W. Stadler, Z. Zawislak, International Conference on Noise and Fluctuations . 2007

机译：RUO_（2）胶片膜低频噪声耦合机制的变化
5. SPIN GLASS TRANSITION IN SYSTEMS WITH SHORT-RANGE EXCHANGE AND RANDOM LONG-RANGE COUPLINGS. [D] . BOWMAN, DAVID ROY. 1980

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Change Of Coupling Mechanism In The Low-Frequency Noise Of RuO_(2)-Glass Films

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