2020
DOI: 10.1109/access.2020.2993612
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Dual-Point Technique for Multi-Trap RTN Signal Extraction

Abstract: Random telegraph noise (RTN), as one dominant variation source in the ultra-scaled devices, has been attracting much more attention, and its analysis is of great importance to understand the fundamental physical mechanisms. In this work, with the advanced dual-point method, we successfully separate the impacts of each trap in multi-traps correlated RTN, especially for complex anomalous RTN signals. A four-level transfer curve and VG-dependent RTN magnitude are extracted in a two-trap transistor from the sub-th… Show more

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Cited by 5 publications
(3 citation statements)
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“…Hence, a leakage current from source to drain through channel as well as gate to the channel through gate oxide layer is unavoidable. As a result recent experimental observations in the oscillations of drain current at both low and room temperatures confirms the origin of Random Telegraph Noise (RTN) that may reduce the performance of qubit gate operations [22][23][24][25][26] In most cases, compared to coherent time, the dephasing time of qubits in presence of noise is reduced by several orders of magnitude due to coupling of qubits to the environment. The reduction of dephasing time depends on the specific dynamical coupling sequence from where the principle of quantum mechanics is inevitably lost.…”
Section: Introductionmentioning
confidence: 85%
“…Hence, a leakage current from source to drain through channel as well as gate to the channel through gate oxide layer is unavoidable. As a result recent experimental observations in the oscillations of drain current at both low and room temperatures confirms the origin of Random Telegraph Noise (RTN) that may reduce the performance of qubit gate operations [22][23][24][25][26] In most cases, compared to coherent time, the dephasing time of qubits in presence of noise is reduced by several orders of magnitude due to coupling of qubits to the environment. The reduction of dephasing time depends on the specific dynamical coupling sequence from where the principle of quantum mechanics is inevitably lost.…”
Section: Introductionmentioning
confidence: 85%
“…Recently, for miniaturized devices down to nanometer sizes, complex RTSs with multiple distinct levels of states are frequently encountered, possibly induced from only a few countable traps [ 57 , 68 , 69 , 70 ]. Thus, a tool to assess multi-level RTS signals is required [ 69 , 71 ]. However, to our best knowledge, there are only a limited number of references providing systematic analyses of a few-trap RTS—an intermediary regime between a single-trap RTS and multi-trap noise.…”
Section: Noise Processesmentioning
confidence: 99%
“…With the aggressive scaling down of MuGFETs, BTI and HCI are not the only reliability issues in the MuGFET technologies. Reliability topics like electromigration [68,69] , device-todevice variation [70,71] , cycle-to-cycle variation [70] , random telegraph noise [72,73] , dielectric breakdown characteristics [74,75] etc. are also get more severe.…”
Section: Bias Temperature Instability and Hot Carrier Injectionmentioning
confidence: 99%