Electrical current noise in Langmuir-Blodgett thin films

Syed A. Malik

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Type :	Article
Subject :	Q Science
ISSN :	1985-7918
Main Author :	Syed A. Malik
Additional Authors :	Asim K.Ray
Title :	Electrical current noise in Langmuir-Blodgett thin films
Hits :	1

Place of Production :	Tanjong Malim
Publisher :	Fakulti Sains dan Matematik
Year of Publication :	2009
Notes :	Vol. 2 No. 1 (2010): Journal of Science and Mathematics
Corporate Name :	Perpustakaan Tuanku Bainun
PDF Full Text :	Login required to access this item.

Abstract : Perpustakaan Tuanku Bainun

The electrical current noise of a metal-insulator-semiconductor (MIS) diode-like device fabricated by Langmuir-Blodgett (LB) technique has been studied at low to moderate dc bias current at room temperature. The result shows that the current noise spectral density SI(f) is 1/f like and the noise power was highly dependent on the bias current. The 1/f noise was not observed at zero bias. It is believed that at low bias current, the origin of noise was due to the bulk phenomena - silicon substrate and contacts whilst at higher bias current, the origin of noise in the device was solely from the LB films _ surface influence. Keywords LB films, low-frequency noise measurement, 1/f noise, current noise spectral density

References

Chen, X.Y., Deen, M.J. and Peng, C.X. (2000). Low-frequency electrical noise of high-speed, highperformance

1.3 μm strained multiquantum well gain-coupled distributed feedback lasers, J.

Appl. Phys., 88 (11): 6746 - 6751.

Chew, K.W., Yeo, K.S., and Chu, S.F. (2004). Impact of technology scaling on the 1/f noise of thin

and thick gate oxide deep submicron NMOS transistors, IEE Proc.-Circuit Devices Syst., 151

(5): 415 - 421.

Ciofi C., and Neri B., 2000, Low frequency noise measurements as a characterization tool for

degradation phenomena in solid-state devices, J. Phys. D: Appl. Phys., 33(21): R199 - R216.

Ferrari, G., Natali, G., Sampietro, M., Wenzl, F.P., Scherf, U., Schmitt, C., Güntner, R and Leising,

G. (2002). Current noise spectroscopy on mLPPP based organic light emitting diodes, Organic

Electronics, 31(1): 33-42.

Jones, B.K. (2002). Electrical noise as a reliability indicator in electronic devices and components,

IEE Proc.-Circuits Devices Syst., 149(1):13-22.

Hooge, F.N., Kleinpenning, T.G.M., and Vandamme, L.K.J. (1981). Experimental studies on 1/f

noise, Rep. Prog. Phys., 44(5): 479-532.

Malik, S., Ray, A.K., Hassan, A.K., and Nabok, A.V. (2003). Nanocomposite organic films on

silicon, IEEE Trans. Nanotechnology, 2(3):149-153.

Martin, S., Dodabalapur, A., Bao, Z., Crone, B., Katz, H.E., Li, W., Passner, A., and Rogers,

J.A. (2000). Flicker noise properties of organic thin-film transistors, J. Appl. Phys. 87(7):

3381- 3386.

Petty, M.C. (2002). Application of organised molecular films to electronic and opto-electronic

devices in studies in Interface Science, Organized Monolayers and Assemblies: Structure,

Process and Function, edited by D. Mobius and R.Miller, Elsevier Science.

Vandamme, L.K.J., Li, X., and Rigaud, D. (1994). 1/f noise in MOS devices, mobility or number

fluctuations? IEEE Trans. Electron Devices, 41(11):2176-2187.

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