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Un-cooled Micro-bolometer with Sandwiched Thermo-sensing Layer Based on Ge Films Deposited by Plasma

Published online by Cambridge University Press:  01 February 2011

Andrey Kosarev
Affiliation:
[email protected], INAOE, Electronics, Luis Enrique Erro No.1, Sta. Maria tonanzintla, Puebla, 72000, Mexico, 52 222 2663 100 Ext. 1409
Mario Moreno
Affiliation:
[email protected], Institute National for Astrophysics, optics and Electronics, Electronics, L.E.Erro No.1, Tonantzintla,, Puebla, Puebla, 72840, Mexico
Alfonso Torres
Affiliation:
[email protected], Institute National for Astrophysics, optics and Electronics, Electronics, L.E.Erro No.1, Tonantzintla,, Puebla, Puebla, 72840, Mexico
Roberto Ambrosio
Affiliation:
[email protected], Institute National for Astrophysics, optics and Electronics, Electronics, L.E.Erro No.1, Tonantzintla,, Puebla, Puebla, 72840, Mexico
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Abstract

We have fabricated and studied an un-cooled micro-bolometer with thermo-sensing layer sandwiched between two electrodes. The micro-bolometer has “bridge” configuration to provide sufficient thermo isolation of the thermo-sensing layer and is made on the surface of silicon wafer by means of surface micro-machining technique. The support layer of SiN and thermo-sensing layer of a-Ge:H,F have been deposited by low frequency PE CVD. The active area of the thermo-sensing layer is Ab=70x66 μm2. Temperature dependence of conductivity σ(T), current-voltage characteristics I(U), spectral noise density and thermal response time have been measured to characterize operation and to determine main performance characteristics. Activation energy of the thermo-sensing layer was Ea=0.34 eV providing thermal coefficient of resistance α=0.043 K-1. Pixel resistance was in the range Rb=(1÷30)x105 Ohm. Current and voltage responsivities were in the range RI=0.3÷14 AW-1 and RU=(1÷2)x105 VW-1, respectively. The value of detectivity was in the range of D*=(1÷40)x108 cmHz1/2W-1 and response time was τ=100 μs. The characteristics obtained in this micro-bolometer with sandwiched thermo-sensing layer make it promising for further development.

Type
Research Article
Copyright
Copyright © Materials Research Society 2006

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References

references

1. Syllaios, A. J., Schimert, T. R., Gooch, R. W., Cardel, W. L. Mc., Ritchey, B. A., Tregilgas, J. H., Mat. Res. Soc. Symp. Proc. 609 A14.4.1 (2000).Google Scholar
2. Ahmed, A. H. Z., Tait, R. N., J. Vac. Sci. Technol. A 22(3), 842 (2004).Google Scholar
3. Ahmed, A. H. Z., Tait, R. N., IEEE Trans Electr.Dev., v52(8) 19001906 (2005).Google Scholar
4. Ahmed, A. H. Z., Tait, R. N., Infrared Physics & Technology v46, 468472 (2005).Google Scholar
5. Ambrosio, R., Torres, A., Kosarev, A., Illinski, A., Zùñiga, C., Abramov, A. S., J. Noncryst. Solids, 338–340, 9196 (2004).Google Scholar
6. Liang, D., Rui-Feng, Y., Li-Tian, L., Chin. Phys. Lett. 20 (5), 770773 (2003).Google Scholar