Frequency domain lifetime characterization

Dieter K. Schroder; Jae Eun Park; Suat Eng Tan; Byoung D. Choi; Seigo Kishino; Haruhiko Yoshida

doi:10.1109/16.853044

Frequency domain lifetime characterization

Dieter K. Schroder
, Jae Eun Park
, Suat Eng Tan
, Byoung D. Choi
, Seigo Kishino
, Haruhiko Yoshida

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Time-based measurements are commonly used for lifetime characterization of semiconductors. We have developed the theory, verified by experiment, of frequency-based lifetime characterization as an alternative to time-based measurements for MOS devices biased in inversion. One consideration during lifetime/diffusion length measurements, is whether the near-surface space-charge region or the bulk or quasineutral region is characterized. To characterize the near-surface space-charge region of the device, one usually makes room temperature pulsed MOS capacitor or diode leakage current measurements. We show that room-temperature, frequency-domain capacitance, conductance, or resistance measurements characterize the quasineutral bulk, not the space-charge region, in contrast to room-temperature pulsed MOS-C or diode leakage current measurements which characterize the space-charge region.

Original language	English
Pages (from-to)	1653-1661
Number of pages	9
Journal	IEEE Transactions on Electron Devices
Volume	47
Issue number	8
DOIs	https://doi.org/10.1109/16.853044
State	Published - Aug 2000
Externally published	Yes

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title = "Frequency domain lifetime characterization",

abstract = "Time-based measurements are commonly used for lifetime characterization of semiconductors. We have developed the theory, verified by experiment, of frequency-based lifetime characterization as an alternative to time-based measurements for MOS devices biased in inversion. One consideration during lifetime/diffusion length measurements, is whether the near-surface space-charge region or the bulk or quasineutral region is characterized. To characterize the near-surface space-charge region of the device, one usually makes room temperature pulsed MOS capacitor or diode leakage current measurements. We show that room-temperature, frequency-domain capacitance, conductance, or resistance measurements characterize the quasineutral bulk, not the space-charge region, in contrast to room-temperature pulsed MOS-C or diode leakage current measurements which characterize the space-charge region.",

author = "Schroder, \{Dieter K.\} and Park, \{Jae Eun\} and Tan, \{Suat Eng\} and Choi, \{Byoung D.\} and Seigo Kishino and Haruhiko Yoshida",

year = "2000",

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doi = "10.1109/16.853044",

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T1 - Frequency domain lifetime characterization

AU - Schroder, Dieter K.

AU - Park, Jae Eun

AU - Tan, Suat Eng

AU - Choi, Byoung D.

AU - Kishino, Seigo

AU - Yoshida, Haruhiko

PY - 2000/8

Y1 - 2000/8

N2 - Time-based measurements are commonly used for lifetime characterization of semiconductors. We have developed the theory, verified by experiment, of frequency-based lifetime characterization as an alternative to time-based measurements for MOS devices biased in inversion. One consideration during lifetime/diffusion length measurements, is whether the near-surface space-charge region or the bulk or quasineutral region is characterized. To characterize the near-surface space-charge region of the device, one usually makes room temperature pulsed MOS capacitor or diode leakage current measurements. We show that room-temperature, frequency-domain capacitance, conductance, or resistance measurements characterize the quasineutral bulk, not the space-charge region, in contrast to room-temperature pulsed MOS-C or diode leakage current measurements which characterize the space-charge region.

AB - Time-based measurements are commonly used for lifetime characterization of semiconductors. We have developed the theory, verified by experiment, of frequency-based lifetime characterization as an alternative to time-based measurements for MOS devices biased in inversion. One consideration during lifetime/diffusion length measurements, is whether the near-surface space-charge region or the bulk or quasineutral region is characterized. To characterize the near-surface space-charge region of the device, one usually makes room temperature pulsed MOS capacitor or diode leakage current measurements. We show that room-temperature, frequency-domain capacitance, conductance, or resistance measurements characterize the quasineutral bulk, not the space-charge region, in contrast to room-temperature pulsed MOS-C or diode leakage current measurements which characterize the space-charge region.

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VL - 47

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EP - 1661

JO - IEEE Transactions on Electron Devices

JF - IEEE Transactions on Electron Devices

IS - 8

ER -

Frequency domain lifetime characterization

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