Papers published by Walter WANG.

1.G. Yu, G. Wang, H. Ishikawa, M. Umeno, T. Soga, T. Egawa, J. Watanabe and T. Jimbo: "Study on wurtzite structure GaN on sapphire near the basic absorption edge (0.78-4.77 eV) by ellipsometry and light transmission method. , 70, 3209 - 32 1 1 ( 1997).

2. Wang, Zhao Guiying, T. Soga, T. Jimbo and M. Umeno: "Effect of hydrogen plasma passivation on photoelectric characteristics on Si", Japan. Journal of Applied Physics, 37 years old, L1280–L1282 (1998).

3.G. Wang, M. Kawai, K. Ohtsuka, T. Soga, T. Jimbo and M. Umeno: "H Plasma Passivation on Si Grown by MOCVD for High Efficiency Solar Cells", Proceedings of the 2nd World Photovoltaic Solar Conversion Conference and Exhibition, (Vienna, Austria, 1998) Council of Europe, 3733.

4. G. Wang, T. Soga, T. Jimbo, M. Umeno: "A New Method of Hydrogen Passivation on Si Grown by MOCVD", Compound Semiconductor 1998, Conference Series of Institute of Physics, 162, 597-602 (1999).

5.G. Wang, K. Ohtsuka, T. Soga, T. Jimbo and M. Umeno: "Hydrogen plasma passivation and improvement of photoelectric properties of solar cells grown on silicon substrates", Jpn. Journal of Applied Physics, 38, 3504–3505 (1999).

6. Wang, Dapingguang, Zhao Guiying, Jin Bo, Mei Ye: "Photoluminescence Study of Hydrogen Passivated Al0. 13Ga0.87As on Silicon Substrate by Metal Organic Chemical Vapor Deposition", Japan. Journal of Applied Physics, 38 years old, L796–L798 (1999).

7.G. Wang, T. Soga, T. Jimbo and M. Umeno: and PH3 plasma passivation of the surface and bulk of solar cells on silicon substrates, applied physics. , 76, 730 – 732 (2000).

8.T. Soga, G. Wang, K. Ohtsuka, T. Jimbo and M. Umeno: "Hydrogen plasma passivation of solar cells on silicon substrate", Journal of Applied Physics, 87, 2285-2288(2000).

9. Wang, K. Otsuka, T. Soga, T. Jimbo, M. Umeno: "Detailed Study on Passivation Effect of H Plasma on Silicon-based Solar Cells", Solar Materials and Solar Cells, 66,599–605 (2001).

10k. aka hori, G. Wang, K. Okumura, T. Soga, T. Jimbo and M. Umeno: "Improving InGaP grown by MOCVD on Si substrates to realize efficient solar cells", Solar Materials and Solar Cells, 66,593–598 (2001.

1 1.G. Wang, T., T. Soga, T. Egawa, T. Jimbo and M. Umeno: "Hydrogenation of Schottky Diodes on Si by Adding PH3 Plasma", Journal of Applied South. Sci。 , 159/ 160, 19 1 – 196 (2000).

12.G. Wang, T., T. Soga, T. Egawa, T. Jimbo and M. Umeno: "Passivation of Metal Organic Chemical Vapor Deposition on Silicon by PH3/H2 Plasma", Journal of Applied Physics, 88, 3689-3694(2000

13.G. Wang, T., T. Soga, T. Jimbo and M. Umeno: "RF plasma-assisted MOCVD for surface and bulk passivation of defects in /Si", J. Cryst. Growth, 22 1, 172-176 (2000).

14.G Wang, T. Soga, T. Egawa, T. Jimbo, M. Umeno: "Enhanced spontaneous emission in AlGaAs/ GaAs vertical cavity surface-emitting laser structure passivated by hydrogen plasma grown on Si substrate", Electron. Ritter. , 36, 1462 – 1464, (2000).

15.G. Wang, T., F. Kunimasa, M. Umeno T. Soga, T. Jimbo and T. Egawa: "Hydrogen plasma passivation of bulk and al 0.3 ga 0.7 as/ multi-quantum-well structure on silicon substrate", Acta Electronica. Mater , 30, 845 – 849 (200 1).

16. T., G. Wang, K. Murase, K. Hori, J. Arokiaraj, T. Soga, T. Jimbo and M. Umeno: "Phosphine-Hydrogen Plasma Passivation of Solar Cells on Silicon Substrate", Proceedings of the 28th IEEE Photovoltaic Expert Meeting,130.

17.G. Wang, K. Akahori, T. Soga, T. Jimbo and M. Umeno: "Study on Electrical and Optical Properties of Phosphine/Hydrogen Plasma Exposed to 0.49Ga0.5 1P Growing on Si Substrate", Jpn. J. Appl. Phys .，40，l 189– 19 1(200 1)。

18.G. Wang, T., K. Murase, K. Hori, T. Soga, B. J. Zhang, G. Y. Zhao, H. Ishikawa, T. Egawa, T. Jimbo and M. Umeno: "Through radio frequency phosphine/. Journal of Applied Physics, 40,4781–4784 (2001).

19.G. Wang, T., T. Soga, T. Jimbo and M. Umeno: "Exposing dislocations growing on passivated silicon substrates by phosphine (PH3) plasma", Applied Physics. , 78, 3463 – 3465 (200 1).

20.G. Wang, T. Tokumitsu, I. Hanawa, K. Sato and M. Kobayashi: "Analysis of S-parameters of high-speed P-I-N photodiode with new small-signal equivalent circuit model", IEEE Microwave and Wireless Component Communication,12,378-380 (2002).

21.g. Wang, T. Tokumitsu, I. Hanawa, Y. Yoneda, K. Sato and M. Kobayashi: "Delay Equivalent Circuit Model of Ultrafast P-I-N Photodiodes", IEEE Transactions on Microwave Theory and Technology, 5 1,/kloc.

22.G. Wang, M. Takechi, K. Araki, T. Tokumitsu, I. Hanawa, Y. Yoneda, K. Sato and M. Kobayashi: "Broadband and High Performance Waveguide Integrated P-I-N Photodiode for 40 Gigabit/s Receiver Module", IEEE 2003.

23.G. Wang, I. Hanawa, H. Aono, Y. Yoneda, T. Fujii, K. Sato and M. Kobayashi: "Highly reliable high-performance waveguide integrated InP/InGaAs pin photodiode for 40 Gbps optical fiber communication applications", Electronics. Ritter. , 39, 1 147 – 1 149 (2003).

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