Origin of carrier lifetime degradation in floating-zone silicon during a high-temperature process for insulated gate bipolar transistor

Ryo Yokogawa; Hiroto Kobayashi; Yohichiroh Numasawa; Atsushi Ogura; Shin Ichi Nishizawa; Takuya Saraya; Kazuo Ito; Toshihiko Takakura; Shinichi Suzuki; Munetoshi Fukui; Kiyoshi Takeuchi; Toshiro Hiramoto

doi:10.35848/1347-4065/abc1d0

Origin of carrier lifetime degradation in floating-zone silicon during a high-temperature process for insulated gate bipolar transistor

Ryo Yokogawa, Hiroto Kobayashi, Yohichiroh Numasawa, Atsushi Ogura, Shin Ichi Nishizawa, Takuya Saraya, Kazuo Ito, Toshihiko Takakura, Shinichi Suzuki, Munetoshi Fukui, Kiyoshi Takeuchi, Toshiro Hiramoto

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Abstract

We report on the relationship between carrier lifetime degradation of floating-zone silicon (FZ Si) and the guard ring formation process for silicon integrated gate bipolar transistor (Si-IGBT). A clear carrier lifetime degradation was observed through the guard ring oxidation and annealing processes for Si-IGBT and showed interstitial oxygen (Oi) concentration dependence, which was obtained by Fourier transform infrared absorption spectroscopy. Based on the carrier lifetime measurements through the step etching of the FZ Si substrate, it has been suggested that the carrier lifetime degradation is not only caused by the Oi itself near the FZ Si surface region but also the other defects induced by the Oi injection. Diffused interstitial Si atoms kicked-out by the Oi into the FZ Si substrate, which has a longer diffusion length than Oi, can be considered to be the origin of the carrier lifetime degradation.

Original language	English
Article number	115503
Journal	Japanese journal of applied physics
Volume	59
Issue number	11
DOIs	https://doi.org/10.35848/1347-4065/abc1d0
Publication status	Published - Nov 2020

All Science Journal Classification (ASJC) codes

Engineering(all)
Physics and Astronomy(all)

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Yokogawa, R., Kobayashi, H., Numasawa, Y., Ogura, A., Nishizawa, S. I., Saraya, T., Ito, K., Takakura, T., Suzuki, S., Fukui, M., Takeuchi, K., & Hiramoto, T. (2020). Origin of carrier lifetime degradation in floating-zone silicon during a high-temperature process for insulated gate bipolar transistor. Japanese journal of applied physics, 59(11), Article 115503. https://doi.org/10.35848/1347-4065/abc1d0

Yokogawa, R, Kobayashi, H, Numasawa, Y, Ogura, A, Nishizawa, SI, Saraya, T, Ito, K, Takakura, T, Suzuki, S, Fukui, M, Takeuchi, K & Hiramoto, T 2020, 'Origin of carrier lifetime degradation in floating-zone silicon during a high-temperature process for insulated gate bipolar transistor', Japanese journal of applied physics, vol. 59, no. 11, 115503. https://doi.org/10.35848/1347-4065/abc1d0

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title = "Origin of carrier lifetime degradation in floating-zone silicon during a high-temperature process for insulated gate bipolar transistor",

abstract = "We report on the relationship between carrier lifetime degradation of floating-zone silicon (FZ Si) and the guard ring formation process for silicon integrated gate bipolar transistor (Si-IGBT). A clear carrier lifetime degradation was observed through the guard ring oxidation and annealing processes for Si-IGBT and showed interstitial oxygen (Oi) concentration dependence, which was obtained by Fourier transform infrared absorption spectroscopy. Based on the carrier lifetime measurements through the step etching of the FZ Si substrate, it has been suggested that the carrier lifetime degradation is not only caused by the Oi itself near the FZ Si surface region but also the other defects induced by the Oi injection. Diffused interstitial Si atoms kicked-out by the Oi into the FZ Si substrate, which has a longer diffusion length than Oi, can be considered to be the origin of the carrier lifetime degradation.",

author = "Ryo Yokogawa and Hiroto Kobayashi and Yohichiroh Numasawa and Atsushi Ogura and Nishizawa, {Shin Ichi} and Takuya Saraya and Kazuo Ito and Toshihiko Takakura and Shinichi Suzuki and Munetoshi Fukui and Kiyoshi Takeuchi and Toshiro Hiramoto",

note = "Funding Information: Part of this work is supported by the New Energy and Industrial Technology Development Organization (NEDO, JPN10022). Publisher Copyright: {\textcopyright} 2020 The Japan Society of Applied Physics.",

year = "2020",

month = nov,

doi = "10.35848/1347-4065/abc1d0",

language = "English",

volume = "59",

journal = "Japanese journal of applied physics",

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T1 - Origin of carrier lifetime degradation in floating-zone silicon during a high-temperature process for insulated gate bipolar transistor

AU - Yokogawa, Ryo

AU - Kobayashi, Hiroto

AU - Numasawa, Yohichiroh

AU - Ogura, Atsushi

AU - Nishizawa, Shin Ichi

AU - Saraya, Takuya

AU - Ito, Kazuo

AU - Takakura, Toshihiko

AU - Suzuki, Shinichi

AU - Fukui, Munetoshi

AU - Takeuchi, Kiyoshi

AU - Hiramoto, Toshiro

N1 - Funding Information: Part of this work is supported by the New Energy and Industrial Technology Development Organization (NEDO, JPN10022). Publisher Copyright: © 2020 The Japan Society of Applied Physics.

PY - 2020/11

Y1 - 2020/11

N2 - We report on the relationship between carrier lifetime degradation of floating-zone silicon (FZ Si) and the guard ring formation process for silicon integrated gate bipolar transistor (Si-IGBT). A clear carrier lifetime degradation was observed through the guard ring oxidation and annealing processes for Si-IGBT and showed interstitial oxygen (Oi) concentration dependence, which was obtained by Fourier transform infrared absorption spectroscopy. Based on the carrier lifetime measurements through the step etching of the FZ Si substrate, it has been suggested that the carrier lifetime degradation is not only caused by the Oi itself near the FZ Si surface region but also the other defects induced by the Oi injection. Diffused interstitial Si atoms kicked-out by the Oi into the FZ Si substrate, which has a longer diffusion length than Oi, can be considered to be the origin of the carrier lifetime degradation.

AB - We report on the relationship between carrier lifetime degradation of floating-zone silicon (FZ Si) and the guard ring formation process for silicon integrated gate bipolar transistor (Si-IGBT). A clear carrier lifetime degradation was observed through the guard ring oxidation and annealing processes for Si-IGBT and showed interstitial oxygen (Oi) concentration dependence, which was obtained by Fourier transform infrared absorption spectroscopy. Based on the carrier lifetime measurements through the step etching of the FZ Si substrate, it has been suggested that the carrier lifetime degradation is not only caused by the Oi itself near the FZ Si surface region but also the other defects induced by the Oi injection. Diffused interstitial Si atoms kicked-out by the Oi into the FZ Si substrate, which has a longer diffusion length than Oi, can be considered to be the origin of the carrier lifetime degradation.

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Origin of carrier lifetime degradation in floating-zone silicon during a high-temperature process for insulated gate bipolar transistor

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