Low-Frequency Noise in Advanced Mos Devices 2007
DOI: 10.1007/978-1-4020-5910-0_3
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1/F Noise in Mosfets

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Cited by 12 publications
(9 citation statements)
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“…In contrast, an increase in the empirical factor γ from 1 to 3 in the 1/fγ slope is only observed in the nonregrowth samples at low frequencies <100 Hz, indicating the presence of a prominent Lorentzian G–R noise at low frequency. [ 15 ] The corner frequency of the Lorentzian G–R noise lies probably still beyond the measurement limit (<1 Hz). We have tried to characterize this G–R peak by increasing the measurement temperature up to 150 °C which should shift the corner frequency inside the measurement window.…”
Section: Resultsmentioning
confidence: 99%
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“…In contrast, an increase in the empirical factor γ from 1 to 3 in the 1/fγ slope is only observed in the nonregrowth samples at low frequencies <100 Hz, indicating the presence of a prominent Lorentzian G–R noise at low frequency. [ 15 ] The corner frequency of the Lorentzian G–R noise lies probably still beyond the measurement limit (<1 Hz). We have tried to characterize this G–R peak by increasing the measurement temperature up to 150 °C which should shift the corner frequency inside the measurement window.…”
Section: Resultsmentioning
confidence: 99%
“…This is strong evidence that the flicker noise is dominated by the number fluctuations (Δ N ) mechanism, [ 11 ] which has been frequently found in GaN‐based D‐mode HEMT [ 12,13 ] and (nonregrowth) E‐mode HEMT. [ 14 ] In this Δ N case, explained by the McWhorter model, [ 15 ] the 1/ f noise is induced by the fluctuations of the interfacial charge, resulting from trapping/detrapping processes of free electrons in border traps close to the channel interface. Therefore, the normalized drain current can be described in proportion to the transconductance g m throughSidIds2=SVfb(gmIds)2where S Vfb is the input‐referred voltage noise PSD at flat‐band voltage and is a constant factor.…”
Section: Resultsmentioning
confidence: 99%
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“…Low-frequency PSDs act as early failure detection to select robust organic light-emitting diodes in mass-production [ 54 ], and noise properties are studied in layered MoTe transistors to examine their susceptibility to environmental fluctuations in sensor applications [ 55 ]. The noise and RTS have been measured in a variety of complementary metal-oxide semiconductor (CMOS) devices [ 56 ], and recently, as device sizes are shrinking down to the nanoscale, complex RTSs with multiple distinct levels of states occur more frequently [ 57 , 58 , 59 ]. Table 1 summarizes notable noise trends in several frequency domains where a certain noise source becomes dominant from internal noise sources in solid-state materials.…”
Section: Noise Processesmentioning
confidence: 99%