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Rf-set and rf QPC 超灵敏静电计

Rf-set and rf QPC 超灵敏静电计. LQCC-QT. SET 工作原理. SET 中的噪声. SET 的极限灵敏度. RF-SET. 反射型 RF-SET.

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Rf-set and rf QPC 超灵敏静电计

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  1. Rf-set and rf QPC 超灵敏静电计 LQCC-QT

  2. SET 工作原理

  3. SET 中的噪声

  4. SET的极限灵敏度

  5. RF-SET

  6. 反射型RF-SET

  7. The dc conductance displays the familiar Coulomb blockade oscillations, with sharp conductance peaks separated by uniform intervals in gate voltage, dVg = e/Cg, corresponding to the addition of individual electrons to the transistor’s island. It is apparent that the reflected carrier power is strongly correlated with the transistor’s conductance. When the conductance is a minimum and the transistor is in its blockaded state, then the reflected power is high, as would be expected for a transmission line terminated with an open circuit. When the transistor becomes conducting, some fraction of the carrier is dissipated in the SET, and the reflected power decreases. (B) The small-signaldc conductance (lower trace) at zero drain-source bias for the SET, displaying the periodic conductance maxima when additional electrons are added to the island. The upper trace shows the total reflected power for a small RF signal at 1.7 GHz under the same conditions. (C) The dc conductance and ac reflected power for a large carrier power and zero dc bias, corresponding to the optimum operating conditions for the RF-SET.

  8. For best sensitivity, the RF-SET was held at zero drain-source dc bias, and an ac voltage amplitude approximately equal to the threshold voltage was used. • The large ac amplitude smooths out the conductance oscillations into an approximately sinusoidal form by sampling a wider range of drain-source bias voltage, but the fractional variation of the reflection remains unchanged.

  9. LC电路对系统的影响

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