Advances in Solid State Physics 48 by Rolf Haug

By Rolf Haug

The 2008 Spring assembly of the Arbeitskreis Festkörperphysik was once held in Berlin, Germany, among February 24 and February 29, 2008 along with the 72nd Annual assembly of the Deutsche Physikalische Gesellschaft. The 2008 assembly used to be the most important physics assembly in Europe and one of the biggest physics conferences on the earth in 2008.

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H. He and N. Tao: Adv. Mater. 2, 161–164 (2002) 5. F. Favier, E. C. Walter, M. P. Zach, T. Benter, and R. M. Penner: Science 293, 2227–2230 (2001) 6. S. Hoffmann, I. Utke, B. Moser, J. Michler, S. Christiansen, V. Schmidt, S. Senz, P. Werner, U. Gösele, and C. Ballif: Nano Lett. 6, 622 (2006) 7. W. L. Barnes, A. Dereux, and T. W. Ebbesen: Nature (London) 424, 824 (2003) 8. E. Ozbay: Science 311, 189 (2006) 9. R. Zia, J. A. Schuller, A. Chandran, and M. L. Brongersma: Mater. Today 9, 20 (2006) 10.

Larsson, W. Seifert, K. Deppert, A. Gustafsson, L. Wallenberg, L. 1021/ nl0487267 26 D. Spirkoska et al. 31. M. A. Sanchez-Garcia, E. Calleja, E. Monroy, F. J. Sanchez, F. Calle, E. Muñoz, R. com/science/article/B6TJ6-3W8STD4-4/ 1/ceb4d2577504cc8815a0de8507ed2712 32. L. Cerutti, J. Ristić, S. Fernández-Garrido, E. Calleja, A. Trampert, K. H. Ploog, S. Lazic, J. M. APL/88/213114/1 33. Y. Cui, X. Duan, J. Hu, C. 1021/ jp0009305 34. -K. Lew, L. Pan, T. E. Bogart, S. M. Dilts, E. C. Dickey, J. M. Redwing, Y.

M. Dilts, E. C. Dickey, J. M. Redwing, Y. Wang, M. Cabassi, T. S. Mayer, S. W. APL/85/3101/1 35. S. Bae, C. Na, J. Kang, J. 1021/ jp0458708 36. G. Cheng, A. Kolmakov, Y. Zhang, M. Moskovits, R. Munden, M. A. Reed, G. Wang, D. Moses, J. APL/83/1578/1 37. M. V. Fernández-Serra, C. Adessi, X. org/abstract/PRL/v96/e166805 38. N. Skold, L. Karlsson, M. -E. Pistol, W. Seifert, J. Tragardh, L. 1021/ nl051304s 39. N. Skold, J. Wagner, G. Karlsson, T. Hernan, W. -E. Pistol, L. 1021/ nl061692d Simple Ways to Complex Nanowires and Their Application Mady Elbahri, Seid Jebril, Sebastian Wille, and Rainer Adelung Institute for Materials Science, Christian-Albrechts-Universität, Kaiserstr.

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