10. H. Masuhara, J. Photochem. Photobio. A. Chem. (in press, 1991). 11. M. Yanagimachi et al., Chem. Mater. 3, 413 (1991); also M. Toriumi et al., Proc. SPIE 1466, 458 (1991); also M. Toriumi and H. Masuhara, Spectrochem Acta Review (in press 1991). 12. K. Sasaki et al., Appl. Spectroscopy 45, 1041 (1991). 13. A. Sekiguchi et al.,Appl. Phys. Lett. (in press, 1991). 14. M. Ishikawa et al., Makromol. Chem, Rapid Commun (in press, 1991). 15. H. Masuhara, in Photochemical Processes in Organized Molecular Systems, K. Honda, editor (Elsevier, Amsterdam, 1991), p. 491. 16. N. Kitamura and H. Masuhara, loc. cit., p. 509. 17. H. Misawa et al., Chem. Lett., 1479 (1990). 18. H. Misawa et al., J. Appl. Phys. (in press, 1991). 29. J. Chan et al., Appl. Phys. Lett. 58, 44. J.M. Nicholls, F. Salvan, and 30. Y. Kadoya et al., J. Cryst. Growth 31. Y. Nakamura et al., Appl. Phys. 32. M. Tsuchiya et al., Workbook of the 33. M. Shimizu et al., Workbook of the 34. A. Shimizu and H. Sakaki, Proc. of 19. H. Misawa et al.,J. Am. Chem. Soc. Mesoscopic Systems, S05-3 (1991). 45. S.V. Averin and K.K. Likharev, J. Low Temp. Phys. 62, 345 (1986). 46. H. Nejoh, Nature, in press. 47. K.K. Likharev, IEEE Trans. Mag. 23, 1142 (1987). 48. L.J. Geeligs, V.F. Anderegg, P.A. Holweg, and J.E. Mooji, Phys. Rev. Lett. 64, 2691 (1990). 49. J.E. Mooji, in the Abstracts of the 1991 American Physical Society March Meeting, Cincinnati, p. 802. 50. T.A. Fulton, in the Abstracts of the 1991 American Physical Society March 35. A. Shimizu and S. Ikeda, Appl. Phys. Meeting, Cincinnati, p. 802. 20. K. Sasaki et al., Jpn. J. Appl. Phys. Lett. 59, 765 (1991). 30, L907 (1991). 36. H. Akimichi et al., Appl. Phys. Lett. 55. A. Kobayashi, F. Grey, R.S. Williams, and M. Aono, to be submitted to Phys. Rev. Lett. 56. R. Gomer, IBMJ. Res. Develop. 30, 428 (1986). 57. T.T. Tsong, submitted to Phys. Rev. B. 58. M. Tsukada, M. Sawamura, and M. Aono, Proc. of the 4th Intem. Vacuum Microelectronics, Nagahama, August 1991, in press. 59. A. Tonomura, Rev. Mod. Phys. 59, 639 (1987). 60. T. Yatagai et al., Appl. Opt. 26, 377 (1987). 61. Q. Ru et al., Appl. Phys. Lett. (in press). 62. K. Yamazaki et al., Surf. Sci. 199, 595 (1988). 63. T. Tanji et al., Ultramicroscopy 35, 245 (1991). 64. T. Tanji and K. Yada, Proc. XI Int. Cong. on Electron Microscopy, Seattle, 1990, vol 1, p. 346. 65. K. Takayanagi, loc. cit., p. 298. 66. T. Tanji et al., Proc. 49th Ann. Meeting of Electron Microsc. Soc. of America, San Jose, 1991, p. 672. 67. M. Murakami et al., Carbon (in press, 1991). 68. M. Murakami et al., J. Poly. Sci., Pt A. Poly. Chem. 28, 1483 (1990). Victor Rehn is currently a liaison scientist with the Office of Naval Research Asian Office in Tokyo. He assumed this position in May 1991. Since 1965 Dr. Rehn has been a research physicist with the Naval Weapons Center, China Lake, California. He started there as a research physicist in the Semiconductor Physics Branch, then as a supervisory research physicist he headed the Electron Structure of Solids Branch and the Semiconductor and Surface Science Branch, both in the Physics Division, Research Department. Dr. Rehn received his B.A. in physics at the University of California, Berkeley in 1953 and his Ph.D. in physics from the University of Pittsburgh in 1962. After completing his thesis research in nuclear quadrupole resonance studies of para dichlorobenzene and related materials, Dr. Rehn studied magnetoacoustic attenuation in metals at the University of Chicago. Upon moving to China Lake, he undertook research in electroreflectance of wide-gap semiconductors and insulators. Beginning in 1973, he participated in the establishment of the Stanford Synchrotron Radiation Laboratory and continued with the application of synchrotron radiation in research in semiconductors and semiconductor surfaces. In 1976 he initiated a research program in liquid-phase epitaxy, followed in 1984 by research in molecular-beam epitaxial growth and characterization of semiconductor materials and heterostructures. In 1987 he initiated research in the production of yttrium barium copper oxide superconductive thin films using excimer-laser ablation. Appendix A COMPLETED ERATO PROJECTS 1986-1991 A. Goto Quantum Magnetoflux Logic Project: Supercomputers Through Superconductors PD: Prof. Eiichi Goto (Kanagawa University) Bassin Shinobazu 202 2-1-42 Ikenohata Taito-ku, Tokyo 110, Japan Tel: 03-3828-3794 Fax: 03-3828-4094 1. Quantum Flux Parametron as a High-Speed Logic Device (Ryotaro Kamikawai) 2. Evaluation of a Cyclic Pipeline Computer, FLATS 2 (Mitsuhisa Sato) 3. Detection of Trapped Flux Quantum in Superconductors (Junpei Yuyama) B. Hotani Molecular Dynamic Assembly Project PD: Prof. Hirokazu Hotani (Teikyo University) c/o Research Institute for Production Development 15 Morimoto-cho, Shimogamo Sakyo-ku, Kyoto 606, Japan Tel: 075-711-5924 Fax: 075-791-7056 C. Inaba Biophoton Project PD: Prof. Humio Inaba (Research Institute of Electrical Communication, Tohoku University) c/o Kozinkai Center Hospital 2-1-6 Tsutsujigaoka, Miyagino-ku Sendai, Miyagi 980, Japan 1985-1990 D. Yoshida Nanomechanism Project: The Way to Nanometer Technology (continuing as a post-project project until 1995) PD: Mr. Shoichiro Yoshida (Managing Director, Nikon Corporation) E. Kuroda Solid Surface Project PD: Prof. Haruo Kuroda (Dept. of Chemistry, University of Tokyo) 1984-1989 F. Horikoshi Superbugs Project PD: Prof. Koki Horikoshi (Tokyo Institute of Technology, Chief Scientist, RIKEN) PD: Dr. Tsuyoshi Masumoto (Director, Research Institute for Iron, Steel and Other Metals, Tohoku University) K. Ogata Fine Polymer Project PD: Prof. Naoya Ogata (Sophia University) L. Nishizawa Perfect Crystal Project PD: Dr. Jun'ichi Nishizawa (President, Tohoku University) Appendix B CURRENT ERATO PROJECTS Both the permanent institutional affiliation of the Project Director and the mailing address and phone numbers of the project office are given. Anyone interested in further information concerning specific projects is encouraged to contact the Project Director directly. General information concerning ERATO projects or about other activities of the Japan Research and Development Corporation (JRDC) should be addressed to: ERATO Research and Development Corp. of Japan 2-5-2 Hagata-cho Chiyoda-ku, Tokyo 100, Japan Tel: 03-3507-3070 Fax: 03-3581-1486 Cable: J33135 JAREDECO Projects running from 1987 to 1992: I. Kunitake Molecular Architecture Project: Novel Functions Through Self-Organization of Molecular Materials PD: Prof. Toyoki Kunitake (Kyushu University) Kurume Research Center Building 2432 Aikawa-cho Kurume, Fukuoka 830, Japan Tel: 0942-37-6030 Fax: 0942-37-6033 A Direct Nanometer-Scale Measurements of Surface Morphology and Surface Interactions (Kazue Kurihara, Fundamental Design Group, Kurume Research Park) B. Molecular Silicates and Related Materials (Kanji Sakata, Functional Architecture Group, Kurume Research Park) C. Preparation of Highly Stabilized LB Films by Molecular Design and 2-D Crosslinking (Tetsuo Ueno, Composite Architecture Group, Kurume Research Park) II. Furusawa MorphoGene Project: Searching for Genes Controlling Development PD: Dr. Mitsuru Furusawa (Director, Molecular Biology Research Laboratory, Daiichi Pharmaceutical Co.) 2F, The Thirteenth Noyone Building 5-6-17 Nishikashi Edogawa-ku, Tokyo 134, Japan Tel: 03-3688-8944 Fax: 03-3675-0634 |