Mitsufumi Codama scite author profile

Mitsufumi Codama

3Publications

50Citation Statements Received

0Citation Statements Given

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Affiliations

TDK (Japan), Tokyo Institute of Technology

Publications

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Electron–ion recombination rate constants in gaseous, liquid, and solid argon

Shinsaka

Codama

Srithanratana

et al. 1988

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Electron drift mobilities μe and electron–ion recombination rate constants kr in gaseous, liquid, and solid argon have been measured by the analysis of transient current induced with the irradiation of an x-ray pulse as functions of temperature and external electric field strength except solid. The effect of external dc electric field on kr up to ∼3×10−3 Td (1 Td=10−17 V cm2/molecule) was examined in gaseous and liquid phases. The observed kr values in both liquid and gas phases were found to be much smaller than those calculated by the reduced Debye equation. The deviation, which is bigger in gas than in liquid, has been compared with recent theoretical studies1–5 which were presented to explain our previous data on the kr values for methane.6 It has been concluded that the recombination also in liquid and gaseous argon is not a usual diffusion-controlled reaction. In the solid phase the observed kr values were almost in agreement with those calculated by the reduced Debye equation. The electron–ion recombination rate constants in both liquid and gas phases increased almost linearly with an external dc electric field up to a critical electric field strength below which electron mobility was nearly constant, and decreased with further increase in the electric field where electron mobility also decreased.

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Passive matrix display of organic LEDs

et al. 1997

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Electron-ion recombination rate constants in liquid and dense gaseous methane

Shinsaka

Codama

Nakamura

et al. 1989

International Journal of Radiation Applications and Instrumenta

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