Electrical conduction mechanism in laser deposited amorphous carbon

Y. Miyajima; Jhon M. Shannon; S. J.  Henley; Vlad Stolojan; D. C.  Cox; S Ravi P Silva

doi:10.1016/j.tsf.2007.06.064

論文・著書情報

タイトル

和文:	Electrical conduction mechanism in laser deposited amorphous carbon
英文:	Electrical conduction mechanism in laser deposited amorphous carbon

著者

和文:	Y. Miyajima, Jhon M. Shannon, S. J. Henley, Stolojan Vlad, D. C. Cox, S Ravi P Silva.
英文:	Y. Miyajima, Jhon M. Shannon, S. J. Henley, Vlad Stolojan, D. C. Cox, S Ravi P Silva.

言語

English

掲載誌/書名

和文:	Thin Solid Films
英文:	Thin Solid Films

巻, 号, ページ

Volume 516 Page 257-261

出版年月

2007年5月

出版者

和文:
英文:	Elsevier

会議名称

和文:
英文:

開催地

和文:
英文:

公式リンク

<Go to ISI>://WOS:000252037500030

DOI

https://doi.org/10.1016/j.tsf.2007.06.064

アブストラクト

The electrical conduction mechanism in the high electric field region of pulsed laser deposited amorphous carbon has been studied. Carrier transport through the films is found to be via a Poole–Frenkel type conduction hopping process for electric fields greater than 4 × 104 V/cm. The dielectric constant extracted from the Poole–Frenkel equation and the square of the refractive index evaluated from ellipsometry show comparable values of around 5. The activation energy for current transport through the films and the product of trap density and mobility is found to be dependent on the laser energy density.

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