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1. Nobuaki Miyakawa, Daisuke Shimada, Ken Ajiki, and Nobuo Tsuda: Multiphonon Exchange Mechanism of the Superconductivity: The 11th Seminar on Science: Symposium for High Temperature Superconductor (Interchange Association Japan) “ú–{ 1989”N11ŒŽ, “ú‘ä¼ÝÎß¼Þ³ÑAµ‘Òu‰‰
2. Daisuke Shimada, Nobuaki Miyakawa, Ken Ajiki, Kenichiro Hagiwara and Nobuo Tsuda: Phonon Mechanism of the High Tc Superconductivity Based on the Tunneling Structure: The First CINVESTAV Superconductivity Symposium, Mexico, 1990”N12ŒŽ,µ‘Òu‰‰
3. Yasushi Shiina, Nobuaki Miyakawa, Kazuaki Tamura, Daisuke Shimada, Masahiko Ohuchi, Kazumi@Yamauchi, Yoshiko Oi Nakamura and Nobuo TsudaFPhonon Structure and Zero-Bias Anomaly in the Tunneling Conductance of Bi-CupratesF The 2nd CINVESTAV Superconductivity@Symposium, Mexico, 1992”N11ŒŽ,µ‘Òu‰‰
4. Nobuo Tsuda, Daisuke Shimada, and Nobuaki MiyakawaFMechanism of High-Tc Superconductivity Based on the Tunneling Study of Bi-CupratesF@STA International Work Shop:@–¢“¥‰ÈŠw‹¦‰ï‚̎嵂½Œ¤‹†‰ï ” ªi“ú–{j 1993”N12ŒŽAµ‘Òu‰‰
5. N. Tsuda, N. Miyakawa, Y.@Yokoya, Y. Shiina: Tunneling Study on mechanical
Bi2Sr2CaCu2O8-GaAs junctions: Workshop on Fundamental Processes of Electron
Transport in High Tc Junctions (ƒXƒ|ƒ“ƒT[ NSF-Science and Technology Center
for Superconductivity & ANL). Argonne National Laboratory, 1996”N8ŒŽ23“ú,µ‘Òu‰‰
6. L. Ozyuzer, J. F. Zasadzinski, N. MiyakawaF Tunneling Spectra and Superconducting Gap in Bi2Sr2CaCu2O8+dEand Tl2Ba2CuO6+dðF The Second International Conference on New Theories, Discoveries, and Applications of Superconductors and Related Materials, (May 31-June 4, 1999) in Las Vegas, NV, USA, µ‘Òu‰‰
7. N. Miyakawa, L. Ozyuzer, J.F. Zasadzinski, P. Guptasarma, C. Kendziora, D.G. Hinks, T. Kaneko, K.E. Gray: Superconducting Gap and Pseudogap from Tunneling Conductance on Bi2212 with Various Oxygen Concentration: The 6th International Conference Materials and Mechanisms of Superconductivity and High-Temperature Superconductors (M2S-HTSC-VI), Houston, Texas, USA, February 20-25, 2000: µ‘Òu‰‰
8. J. F. Zasadzinski, L. Ozyuzer, N. Miyakawa, D.G. Hinks, K.E. Gray: High energy secondary peak structure in tunneling spectra (hump)as possible magnetic pseudogap: The 6th International Conference Materials and Mechanisms of Superconductivity and High-Temperature Superconductors (M2S-HTSC-VI), Houston, Texas, USA, February 20-25, 2000, µ‘Òu‰‰
9. N. Miyakawa, J.F. Zasadzinski, S. Oonuki, M. Asano, D. Henmi, T. Kaneko, L. Ozyuzer, K.E. Gray: Implications of tunneling studies on high-TC cuprates: Superconducting gap and pseudogap: The Third International Conference on New Theories, Discoveries, and Applications of Superconductors and Related Materials (New3SC-3), Honolulu, Hawaii, USA, January 15-19, 2001,µ‘Òu‰‰
10. Nobuaki Miyakawa: Phase Diagram of BSCCO: Underdoped Anomalies (Implication of tunneling study on high-TC cuprates): Workshop on Networks and Nanoscale Coherence in 2D Metal and HTSC, Banff, Canada, August 22-25, 2001, µ‘Òu‰‰
11. N. Miyakawa, K. Tokiwa, S. Mikusu, J.F. Zasadzinski, L. Ozyuzer, T. Kaneko, T. Watanabe, K.E. Gray, Tunneling studies of hole-doped multilayered superconducting cuprates: Paring States and Pseudogap states, The Fourth International Conference on New Theories, Discoveries, and Applications of Superconductors and Related Materials (New3SC-4), San Diego, California, USA, January 16-21, 2003,Šî’²u‰‰
12. N. Miyakawa, K. Tokiwa, S. Mikusu, T. Watanabe, A. Iyo, J.F. Zasadzinski, T. Kaneko, Implications of Dip structures observed on Tunneling conductance of hole-doped superconducting cuprates, The Fifth International Conference on New Theories, Discoveries, and Applications of Superconductors and Related Materials (New3SC-5), Chongqing, China, June 11-16, 2004,Šî’²u‰‰
13. N. Miyakawa, K. Tokiwa, S. Mikusu, T. Watanabe, A. Iyo, J.F. Zasadzinski, Tunneling spectroscopy of multilayered high-TC cuprates with inequivalent inner and outer CuO2 planes, The 4th International Conference of the STRIPES series gNanoscale Heterogeneity and Quantum Phenomena in Complex Matter(Stripes 2004), Rome, Italy, Sept 26-Oct 1, 2004, µ‘Òu‰‰
14. N. Miyakawa, H. Hoya, A. Iyo, Y. Tanaka, K. Tokiwa, T. Watanabe, T. Kaneko, TUNNELING STUDY ON Ba2Ca3Cu4O8(O1-xFx)‚Q, The Sixth International Conference on New Theories, Discoveries, and Applications of Superconductors and Related Materials (New3SC-6), Sydney, Australia, January 9-11, 2007,Šî’²u‰‰
‘“àŠw‰ïEŒ¤‹†‰ï‚ł̵‘Òu‰‰
15. ’ÓcˆÒ—YC“ˆ“c‘å‰îC‹{ìé–¾Fuƒgƒ“ƒlƒ‹“`“±“x‚É‚ ‚ç‚í‚ê‚éƒtƒHƒmƒ“\‘¢vF“ú–{‰ž—pŽ¥‹CŠw‰ïF@‘æ19‰ñ’´“`“±Ï¸ÞÈ踽Œ¤‹†‰ïuƒgƒ“ƒlƒ‹•ªŒõ‚©‚猩‚½‚‰·’´“`“±vF’´“`“±HŠwŒ¤‹†ŠA1994”N10ŒŽAµ‘Òu‰‰
16. ‹{ìé–¾Fƒgƒ“ƒlƒ‹•ªŒõ–@‚ÅŠÏ‘ª‚³‚ꂽ“ºŽ_‰»•¨‚‰·’´“`“±‘̂̈Ùí‚È“Á’¥F“ú–{•¨—Šw‰ïAL“‡‘åŠw“ŒL“‡ƒLƒƒƒ“ƒpƒXA1999”N‚RŒŽA“Á•Êu‰‰
17. ‹{ìé–¾Fu‹[ƒMƒƒƒbƒv‚Ì‹NŒ¹‚ÍHFƒgƒ“ƒlƒ‹•ªŒõ–@‚É‚æ‚èŠÏ‘ª‚³‚ꂽ€—±Žqó‘Ô–§“x‚̃z[ƒ‹”Z“xˆË‘¶«‚æ‚èvF@‰ž—p•¨—Šw‰ï@’´“`“±•ª‰È‰ïŽåÑæ‚Q‚O‰ñŒ¤‹†‰ïFu‚„”gE‹[ƒMƒƒƒbƒvEƒXƒgƒ‰ƒCƒvEƒWƒ‡ƒZƒtƒ\ƒ“ƒvƒ‰ƒYƒ}‚Á‚Ä‚È‚ñ‚¾‚낤H�"‚‰·’´“`“±•¨—‚Ìŋ߂̃gƒsƒbƒNƒX‚©‚ç�"vF•½¬‚P‚P”N‚P‚QŒŽ‚X“úi–ØjA‚P‚O“úi‹àjF’´“d“±HŠwŒ¤‹†Ši“Œ‹ž“s]“Œ‹æ“Œ‰_jFµ‘Òu‰‰
18. ‹{ìé–¾FCu1234‚̃gƒ“ƒlƒ‹•ªŒõFí—ª“IŠî‘bŒ¤‹†Ž–‹ÆuÅ‚«”\’´“`“±Þ—¿‚Ì‘n»v‚̃Zƒ~ƒi[A@‚‰·’´“`“±‘ÌCu-1234Œn‚̃I[ƒo[ƒh[ƒvó‘Ô‚ÉŠÖ‚·‚錤‹†‰ïF•½¬‚P‚P”N‚P‚QŒŽ‚Q‚O“úiŒŽjF“Œ‹ž—‰È‘åŠw–ì“cZŽÉŒvŽZƒZƒ“ƒ^[Aƒtƒƒ“ƒeƒBƒA‰ÈŠw‰ï‹cŽº‚SŠKFˆË—Šu‰‰
19. ‹àŽqãàA‹{ìé–¾A‘\ªˆílAŽRèOËAª–{ ‘åA’|“cŠ¸A×ì—Yˆê˜YA¬–숟Ž÷ŽqA‘׈ä‚Ü‚Ç‚©A’·“c‰pŽ÷A›r—SFuƒvƒ‰ƒYƒ}CVDACat-CVD,”MCVD‚É‚æ‚éSiC”––Œ‚̬’·F300Ž‚Å‚ÌSiC”÷Œ‹»ˆç¬‚É‚Þ‚¯‚ÄvF‘æ42‰ñCVDŒ¤‹†‰ïA–¼ŒÃ‰®‘åŠwƒxƒ“ƒ`ƒƒ[ƒrƒWƒlƒXƒ‰ƒ{ƒ‰ƒgƒŠ[iVBLjA2005”N12ŒŽ2“úFµ‘Òu‰‰
20. ‹{ìé–¾FTunneling Study on Multilayered cuprates, Informal Meeting on Electronic States in Multilayer High-Tc Cuprates, 2007”N2ŒŽ23“úA‹ž“s‘åŠwŠî‘b•¨—ŠwŒ¤‹†ŠiˆË—Šu‰‰j
21. ‹{ì é–¾F“ºŽ_‰»•¨‚‰·’´“`“±‘̂̃gƒ“ƒlƒ‹•ªŒõŒ¤‹†`–²‚ÌŽº‰·’´“`“±‘Ì‚ð–ÚŽw‚µ‚Ä`Fz–KŒ—ŽYŠwƒŠƒGƒ]ƒ“ƒtƒFƒA@ŽåÃFiàj’·–쌧ƒeƒNƒmà’ciu‰‰{ƒ|ƒXƒ^[jFRAKO‰Ø”Tˆäƒzƒeƒ‹A2007”N3ŒŽ5“úAˆË—Šu‰‰
ŠCŠOŒ¤‹†”•\E‘Û‰ï‹ciˆê”Êu‰‰j
22. Nobuo Tsuda, Daisuke Shimada and Nobuaki Miyakawa: PHONON MECHANISM OF HIGH Tc SUPERCONDUCTIVITY BASED ON THE TUNNELING STUDY OF BI-BASED CUPRATES: 3th International Conference Materials and Mechanisms of Superconductivity and High-Temperature Superconductors (M2S-HTSC ‡V) ‹à‘òi“ú–{j 1991”N 7ŒŽ, ‘Û‰ï‹c
23. Tsutomu Kaneko, Hayato Sone, Nobuaki Miyakawa and Mitihiro Naka: Study of Silicon Carbide CVD from Methyl-Trichloro-Silane: The 11th International Conference on Crystal Growth (ICCG-11), den Haag, Holland, 1995”N6 ŒŽC‘Û‰ï‹c
24. Daisuke Shimada, Yasushi Siina, Nobuaki Miyakawa, Nobuo Tsuda: Phonon contribution to superconductivity of Bi2Sr2CaCu2O8F PHONON 95C –kŠC“¹‘åŠwi“ú–{jC1995”N 7ŒŽ, ‘Û‰ï‹c
25. Hayato Sone, Tsutomu Kaneko, and Nobuaki Miyakawa: Study of silicon carbide CVD process by thermogravimetry: International Conference on Silicon Carbide and Related Materials-95 (ICSCRM-95), ‹ž“si“ú–{j1995”N 9 ŒŽ, ‘Û‰ï‹c
26. Tsutomu Kaneko, Hayato Sone, Nobuaki Miyakawa and Mitihiro Naka: Growth kinetics of various vapor -grown SiC: International Conference on Silicon Carbide and Related Materials-95 (ICSCRM-95), ‹ž“si“ú–{j1995”N9 ŒŽ, ‘Û‰ï‹c
27. Tsutomu Kaneko, Nobuaki Miyakawa, Hayato Sone, Makoto Iijima: Thin Film Growth of Silicon Carbide from Methyl-Trichloro-Silane by RF Plasma Enhanced CVD: The ninth International Conference on Vapor Growth and Epitaxy (ICVGE-9), Vail, Colorado, USA, 1996”N8ŒŽ, ‘Û‰ï‹c
28. D.Shimada, N. Miyakawa, and N. Tsuda: Temperature Dependence of the Spectral Function of the Electron-Phonon Interaction for Bi2Sr2CaCu2O8: The Fifth International Conference on Materials and Mechanisms of Superconductivity High-Temperature Superconductors (M2S-HTSC-V), –k‹žA‘Û‰ï‹cƒZƒ“ƒ^[A1997”N2ŒŽ28“úA‘Û‰ï‹c
29. N. Miyakawa, A. Nakamura, Y. Fujino, T. Kaneko, D. Shimada, Y. Shiina, and N. Tsuda: Electron-Phonon Spectral Function aEF(wE Determined by Quasiparticle Tunneling Spectroscopy for Bi2Sr2CaCu2O8/Au junctions: The Fifth International Conference on Materials and Mechanisms of Superconductivity High-Temperature Superconductors (M2S-HTSC-V), –k‹žA‘Û‰ï‹cƒZƒ“ƒ^[A1997”N2ŒŽ28“úA‘Û‰ï‹c
30. N. Miyakawa, L. Ozyuzer, J.F. Zasadzinki: Temperature Dependence of the Tunneling Conductance in Ba1-xKxBiO3: 1997 March Meeting of American Physical Society, Kansas City, USA, 1997”N3ŒŽ
31. J.F. Zasadzinski, L. Ozyuzer, N. Miyakawa, J. Chen, D.G. Hinks, K.E. Gray, P. Guptasarma: Quasiparticle Tunneling in Oxide Superconductors: 1997 March Meeting of American Physical Society, Kansas City, USA, 1997”N3ŒŽ
32. L. Ozyuzer, J.F. Zasadzinski, N. Miyakawa, P. Romano, K.E. Gray, C. Kendziora, P. Guptasarma, D.G. Hinks: Tunneling Study of Optimal doped and Overdoped BSCCO2212: 1997 March Meeting of American Physical Society, Kansas City, USA, 1997”N3ŒŽ
33. N. Miyakawa, J.F. Zasadzinski, L. Ozyuzer, P. Guptasarma, D.G. Hinks, C. Kendziora, K.E. Gray: Doping Dependence of the Tunneling conductance on Bi2Sr2CaCu2O8+x: 1998 March Meeting of American Physical Society, Los Angeles, USA, 1998”N3ŒŽ
34. L. Ozyuzer, J.F. Zasadzinski, N. Miyakawa, C. Kendziora, P.Guptasarma, D.G. Hinks, K.E. Gray: Detailed Analysis of SIS Tunneling Conductance in Bi2Sr2CaCu2O8+x Single Crystals: 1998 March Meeting of American Physical Society, Los Angeles, USA, 1998”N3ŒŽ
35. J.F. Zasadzinski, L. Ozyuzer, N. Miyakawa, P. Guptasarma, D.G. Hinks, C. Kendziora, K.E. Gray: Implications of Doping Dependence of Tunneling Data in Bi2Sr2CaCu2O8+x Single Crystals: 1998 March Meeting of American Physical Society, Los Angeles, USA, 1998”N3ŒŽ
36. Z. Yusof, J.F. Zasadzinski, L. Coffy and N. Miyakawa: Modeling of Tunneling Spectroscopy in High-Tc Superconductors Incorporating Band Structure, Gap Symmetry, Group Velocity and Tunneling Directionarlity: 1998 March Meeting of American Physical Society, Los Angeles, USA, 1998”N3ŒŽ
37. L. Ozyuzer, N. Miyakawa, J.F. Zasadzinski, Z. Yusof, P. Romano, C. Kendziora, P. Guptasarma, D.G. Hinks, K.E. Gray : Simultaneous Quasiparticle and Josephson Tunneling in BSCCO-2212 Break Junctions: Applied Superonductivity Conference 1998, Palm Springs, California, USA, September 13-18, 1998
38. L. Ozyuzer, J.F. Zasadzinski, N. Miyakawa, C. Kendziora, K.E. Gray: Energy Gap versus Hole Doping in Bi2Sr2CaCu2O8-ðdEðfrom Tunneling Spectroscopy: 1999 March Meeting of American Physical Society, Atlanta, USA, 1999”N3ŒŽ
39. N. Miyakawa, J.F. Zasadzinski, T. Kaneko, L. Ozyuzer, K.E. Gray: Tunneling Spectroscopy of CuBa2Ca3Cu4Oy: 1999 March Meeting of American Physical Society, Atlanta, USA, 1999”N3ŒŽ
40. L. Ozyuzer, J.F. Zasadzinski, N. Miyakawa, C. Kendziora, J. Sha, D.G. Hinks, K.E. Gray: Tunneling spectroscopy of heavily underdoped crystals of Bi2Sr2CaCu2O8+dE The 6th International Conference Materials and Mechanisms of Superconductivity and High-Temperature Superconductors (M2S-HTSC-VI), Houston, Texas, USA, February 20-25, 2000@‘Û‰ï‹c@
41. L. Ozyuzer, J.F. Zasadzinski, N. Miyakawa, M. Oda, C. Kendziora, J. Sha, D.G. Hinks, K.E. Gray: Spectral Features of the Tunneling Density of States in High-TC Superconductors: 2000 March Meeting of American Physical Society, Minneapolis, MN, USA, 2000”N3ŒŽ
42. T. Kaneko, N. Miyakawa, H. Sone, H. Yamasaki: OPTICAL EMISSION SPECTROSCOPIC STUDY FOR RF PLASMA-ENHANCED CVD OF SLICON CARBIDE FROM METHYLTRICHLOROSILANE: Seventh International Conference on Plasma Surface Engineering , Garmisch-Paetenkirchen, FRG, September 17-21, 2000
43. N. Miyakawa, J.F. Zasadzinski, M. Asano, D. Henmi, S. Oonuki, K. Sasaki, T. Kaneko, L. Ozyuzer, K.E. Gray: Universal features of tunneling conductance on high-TC cuprates: 13th International Symposium on Superconductivity (ISS2000), Tokyo, Japan, October 14-16, 2000
44. T. Kaneko, N. Miyakawa, H. Sone and H. Yamazaki: Growth Kinetics of Hydrogenated Amorphous Silicon Carbide films by RF Plasma Enhanced CVD from Two Kinds of Source Materials; The 2nd Asian Conference on Chemical Vapor Deposition, Hyundai Hotel, Kyongju, Korea, May 28 to 31, 2001
45. T. Kaneko, N. Miyakawa, H. Yamazaki, and Y. Iikawa: Growth Kinetics of aESiC Plasma CVD from Monomethylsilane Revealed by In-Situ Spectroscopy; The Thirteenth International Conference on Crystal Growth(ICCG-13), Doshisha University, Kyoto, Japan, 30 July-4 August, 2001
46. S. Oonuki, M. Asano, D. Henmi, N. Miyakawa, T. Kaneko: Single crystal growth of Bi2Sr2-xLaxCuO6+dEby floating zone method: The Thirteenth International Conference on Crystal Growth(ICCG-13), Doshisha University, Kyoto, Japan, 30 July-4 August, 2001
47. Y. Fujiyama, T. Kaneko, N. Miyakawa, Thin film growth of 3C-SiC on Si using CH3SiH3 by LPCVD, International Conference on Silicon Carbide and Related Materials 2001 (ICSCRM2001), Tsukuba, Japan, 28 October-2 November, 2001. Technical Digest p.592-593
48. L. Ozyuzer, J.F. Zasadzinski, K.E. Gray, D.G. Hinks and N. Miyakawa, Probing the Phase Diagram of Bi2Sr2CaCu2O8+dEwith Tunneling Spectroscopy, Applied Superconductivity Conference 2002 (ASC-2002), Houston, TX.,USA, August 4-9, 2002
49. L. Ozyuzer, J.F. Zasadzinski, N. Miyakawa , K.E. Gray, Probing the Density of States of High Temperature Superconductors with Point Contact Tunneling Spectroscopy, NATO Advanced Study Institute (ASI) on Scanning Probe Microscopy: Characterization, Nanofabrication and Device Application of Functional Materials, Hotel Real Bellavista in Albufeira, Algarve, Portugal, October 1-13, 2002.
50. Tsutomu Kaneko, Dai Nemoto and Atsushi Horiguchi, Nobuaki Miyakawa, FTIR analysis of a-SiC:H films grown by plasma enhanced CVD, ICCG14-0703, Grenoble, France, August 8-19,2004
51. L. Ozyuzer, C. Kurter, J.F. Zasadzinski, K.E. Gray, D.G. Hinks and N. Miyakawa, Single Junction and Intrinsic Josephson Junction Tunneling Spectroscopy of Bi2Sr2CaCu2O8+dE Applied Superconductivity Conference 2004 (ASC-2004), Jacksonville, Florida, USA, October 3-8, 2004
52. T. Kaneko, D. Nemoto and N. Miyakawa, Optical band gap of a-SiC films grown by plasma enhanced CVD, The 3rd Asian Conference on Chemical Vapor Deposition, Haword International House, Taipei, Taiwan, Nov. 12, 2004
53. Tsutomu Kaneko, Yuichiro Hosokawa, Shunsuke Suga and Nobuaki Miyakawa,
Low temperature growth of polycrystalline SiC by catalytic CVD from monomethylsilane,
3rd International Conference on Materials Advanced Technologies (IMMAT
2005), Singapore, Suntec Singapore International Convention & Exhibition
Centre, Singapore, July 3~July 8, 2005.
54. N. Miyakawa, K. Tokiwa, T. Watanabe, A. Iyo, Y. Tanaka, Tow-Gap Features from Tunneling Studies on Trilayered Cuprates, HgBa2Ca2Cu3O8+dEwith TC~132K, The 24th International Conference on Low Temperature Physics (LT-24), Orlando, Florida, USA, Aug. 16, 2005
Œ¤‹†”•\i‘“àŠw‰ïEŒ¤‹†‰ïj
55. ‹{ìé–¾A“ˆ“c‘å‰îA‹MŒË’õŽ¡A’ÓcˆÒ—YFu‚‰·’´“`“±‚Ì‹@\vF“ú–{•¨—Šw‰ïC“ŒŠC‘åŠwC1989”N3ŒŽ31“ú
56. ‹{ìé–¾C“ˆ“c‘å‰îCˆÀHŒ«C’ÓcˆÒ—YFŽ_‰»•¨’´“`“±‘̂̃gƒ“ƒlƒ‹Œø‰ÊvF“ú–{•¨—Šw‰ïC‘åã‘åŠwC1990”N3ŒŽ31“ú
57. ‹{ìé–¾C“ˆ“c‘å‰îC’ÓcˆÒ—Y:uBi2Sr1.6La0.4CuOy‚̃gƒ“ƒlƒ‹Œø‰Êv:“ú–{•¨—Šw‰ïCŠwK‰@‘åŠwC1991”N3ŒŽ24“ú
58. “ˆ“c‘å‰îC‹{ìé–¾CˆÀHŒ«C”‹Œ´Œ’ˆê˜YC’ÓcˆÒ—YFuBi2-xPbxSr2Ca2Cu3Oy‚̃gƒ“ƒlƒ‹Œø‰ÊvF“ú–{•¨—Šw‰ïCŠwK‰@‘åŠwC1991”N3ŒŽ24“ú
59. ‹{ìé–¾A’Å–¼‘׎iC‹àŽqãàC’ÓcˆÒ—YFuƒgƒ“ƒlƒ‹“`“±“x‚ɉ—‚¯‚éƒtƒHƒmƒ“\‘¢‚̉ðÍvF“ú–{•¨—Šw‰ïC“Œ–k‘åŠwC1992”N3ŒŽ30“ú
60. “ˆ“c‘å‰îA‘å“à‰ë•FA‹{ìé–¾A’Å–¼‘׎iA‹àŽqãàC’ÓcˆÒ—YFuƒgƒ“ƒlƒ‹“`“±“x‚̃tƒHƒmƒ“\‘¢‚Æ’´“`“±‹@\vF“ú–{•¨—Šw‰ïC“Œ–k‘åŠwC1992”N3ŒŽ30“ú
61. ‹{ìé–¾A’Å–¼‘׎iC‹àŽqãàC’†‘ºiŽqC’ÓcˆÒ—YFuƒgƒ“ƒlƒ‹‘ª’è‚ɉ—‚¯‚éƒtƒHƒmƒ“\‘¢‚Ì‘å‚«‚³‚Ì•]‰¿vF“ú–{•¨—Šw‰ïC“Œ‹ž‘åŠw‹³—{Šw•”C1992”N9ŒŽ26“ú
62. “c‘º˜a–¾C‹{ìé–¾C“ˆ“c‘å‰îCÔ‰H—²ŽjC’ÓcˆÒ—YFuŽ_‰»•¨ƒgƒ“ƒlƒ‹Œø‰ÊF¾ÞÛÊÞ²±½Ëß-¸vF“ú–{•¨—Šw‰ïC“Œ‹ž‘åŠw‹³—{Šw•”C1992”N9ŒŽ26“ú
63. ‹{ìé–¾A’Å–¼‘׎iA‹àŽqãàA’ÓcˆÒ—YAƒgƒ“ƒlƒ‹“`“±“x‚ɉ—‚¯‚éƒtƒHƒmƒ“\‘¢‚̉ðÍA“ú–{•¨—Šw‰ïu‰‰ŠT—vWA‘æ48‰ñ”N‰ï‘æ3•ªûApp. 325, 1993.i“Œ–k‘åŠw‰Í“àƒLƒƒƒ“ƒpƒXC1993”N3ŒŽ30“új
64. “ˆ“c‘å‰îA‘å“à‰ë•FA‹{ìé–¾A’Å–¼‘׎iA‹àŽqãàA’ÓcˆÒ—YAƒgƒ“ƒlƒ‹“`“±“x‚̃tƒHƒmƒ“\‘¢‚Æ’´“`“±‹@\A“ú–{•¨—Šw‰ïu‰‰ŠT—vWA‘æ48‰ñ”N‰ï‘æ3•ªûApp.287, 1993.i“Œ–k‘åŠw‰Í“àƒLƒƒƒ“ƒpƒXC1993”N3ŒŽ30“új
65. ‹àŽqãàC‘\ªˆílCŠÝ´C‹{ìé–¾Fu”Md—Ê–@‚É‚æ‚éCVD‰ß’ö‚ÌŒ¤‹†i‡TjvF•¶•”ȉȊwŒ¤‹†”ï•â•‹àd“_—̈挤‹†uŒ´ŽqƒŒƒxƒ‹‚Å‚ÌŒ‹»¬’·vC–kŠC“¹‘åŠwŠwpŒð—¬‰ïŠÙC1993”N6ŒŽ17“ú
66. ‹àŽqãàC‹{ìé–¾C‘\ªˆílFu”Md—Ê–@‚É‚æ‚éCVD‰ß’ö‚ÌŒ¤‹†i‡TjvF“ú–{Œ‹»¬’·Šw‰ïCL“‡‘åŠwHŠw•”C1993”N7ŒŽ27“ú
67. ‹àŽqãàC‹{ìé–¾C“߉ϒʗTFu¼ØºÝ¶�"ÊÞ²ÄÞ”MCVD‚̉·“x•Ï‰»vF“ú–{Œ‹»¬’·Šw‰ïCL“‡‘åŠwHŠw•”C1993”N7ŒŽ 27“ú
68. ‹àŽqãàC‹{ìé–¾C“߉ϒʗTFu¼ØºÝ¶�"ÊÞ²ÄÞ”MCVD‚Ì—¥‘¬‰ß’övF‰ž—p•¨—Šw‰ïC–kŠC“¹‘åŠwC1993”N9ŒŽ28“ú
69. ‹àŽqãàC‹{ìé–¾C“߉ϒʗTFu¼ØºÝ¶�"ÊÞ²ÄÞ”MCVD‚Ì—¥‘¬‰ß’övF SiC‹y‚ÑŠÖ˜AܲÄÞ·Þ¬¯Ìß”¼“±‘ÌŒ¤‹†‰ïCH‹Æ‹Zp‰@C1993”N11ŒŽ18“ú
70. Tsutomu Kaneko, Hayato Sone, Nobuaki Miyakawa and Kiyoshi KishiFuStudy of Silicon Carbide CVD Process by ThermogravimetryvF The 7th Topical Meeting on Crystal Growth Mechanism, Atagawa, 19-21 January, 1994)
71. ‹àŽqãàC‹{ìé–¾C‘\ªˆílFu”Md—Ê–@‚É‚æ‚éCVD‰ß’ö‚ÌŒ¤‹†i‡UjvF“ú–{Œ‹»¬’·Šw‰ïCŠwK‰@‘åŠwC1994”N7ŒŽ21“ú
72. ‹{ìé–¾C‘唪–ØN”VC’Å–¼‘׎iCŽŠÚ‹ÅŽqC‹àŽqãàFu‚‰·’´“`“±‘̂̃Gƒlƒ‹ƒM�"ƒMƒƒƒbƒv‚̉·“x•Ï‰»vF•½¬6”N“x‰ÈŠwŒ¤‹†”ïd“_—̈挤‹†u‚‰·’´“`“±‚̉ȊwvCu‚‰·’´“`“±ƒgƒ“ƒlƒ‹•ªŒõŒ¤‹†‰ïvCÂŽRŠw‰@‘åŠwC1994”N12ŒŽ9“ú
73. ‹{ìé–¾C’†‘º²•FC“¡–ì–LC‘唪–ØN”VC’Å–¼‘׎iCŽŠÚ‹ÅŽqA‹àŽqãàFuBi2Sr2CaCu2O8‚̃gƒ“ƒlƒ‹ƒRƒ“ƒ_ƒNƒ^ƒ“ƒXvF“ú–{•¨—Šw‰ïC_“Þì‘åŠwC1995”N3ŒŽ28“ú
74. ‹{ìé–¾C’Å–¼‘׎iFuMSC–@‚ð—p‚¢‚½—LŒÀ‰·“x‚É‚¨‚¯‚éM-R inversion ‰ðÍvF“ú–{•¨—Šw‰ïC_“Þì‘åŠwC1995”N3ŒŽ31“ú
75. ‹àŽqãàC‹{ìé–¾C”Ñ“‡½FuMTSiCH3SiCl3)‚ð—p‚¢‚½RFÌß×½ÞÏ CVD–@‚É‚æ‚éSiC‚̬–ŒvF“ú–{Œ‹»¬’·Šw‰ïC·‰ªŽs’†‰›Œö–¯ŠÙA1995”N8ŒŽ8“ú
76. ‹àŽqãàC‹{ìé–¾C‘\ªˆílCŠ`–{–¾CFu’Pˆêƒ\�"ƒX(MTS)‚É‚æ‚é3C-SiC‚ÌCVD¬’·vF“ú–{Œ‹»¬’·Šw‰ïC·‰ªŽs’†‰›Œö–¯ŠÙA1995”N8ŒŽ8“ú
77. ‹àŽqãàC‹{ìé–¾C‘\ªˆílFu”Md—Ê–@‚É‚æ‚éCVD‰ß’ö‚ÌŒ¤‹†i‡VjvF“ú–{Œ‹»¬’·Šw‰ïC·‰ªŽs’†‰›Œö–¯ŠÙA1995”N8ŒŽ8“ú
78. “¡–ì–LC’†‘º²•FC‹{ìé–¾C’Å–¼‘׎iC‹àŽqãàFu‚‰·’´“`“±Ž_‰»•¨‚Ì’PŒ‹»ˆç¬‹y‚Ñ‚»‚Ì•]‰¿vF“ú–{•¨—Šw‰ïC‘åã•{—§‘åŠwC1995”N9ŒŽ27“ú
79. ’†‘º²•FC“¡–ì–LC‹{ìé–¾BC’Å–¼‘׎iC‹àŽqãàFuBi2212‚̃gƒ“ƒlƒ‹ƒXƒyƒNƒgƒ‹‚É‚¨‚¯‚éƒtƒHƒmƒ“\‘¢vF“ú–{•¨—Šw‰ïC‘åã•{—§‘åŠwC1995”N9ŒŽ30“ú
80. ’†‘º²•FC“¡–ì–LC‹{ìé–¾C‹àŽqãà,“ˆ“c‘å‰îC’Å–¼‘׎iC’ÓcˆÒ—YFuBiŒn“ºŽ_‰»•¨’´“`“±‘̂̃gƒ“ƒlƒ‹•ªŒõ–@‚É‚æ‚逗±Žqó‘Ô–§“xvF“ú–{•¨—Šw‰ïC‹à‘ò‘åŠwC1996”N3ŒŽ31“ú
81. ‹{ìé–¾C’†‘º²•FC“¡–ì–LC‹àŽqãàC“ˆ“c‘å‰î,’Å–¼‘׎iC’ÓcˆÒ—YFuBi2212‚̃gƒ“ƒlƒ‹•ªŒõ–@‚É‚æ‚éƒtƒHƒmƒ“\‘¢‚ÌÄŒ»«vF“ú–{•¨—Šw‰ïC‹à‘ò‘åŠwC1996”N4ŒŽ1“ú
82. ‹àŽqãàA‹{ìé–¾A‘]ªˆílA”Ñ“‡½FuMTS‚ð—p‚¢‚½RFƒvƒ‰ƒYƒ}CVD–@‚É‚æ‚éƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh¬–Œ‹@\vF‘æ‚Q‚V‰ñŒ‹»¬’·‘“à‰ï‹cNCCG-27A—§–½ŠÙ‘åŠw—HŠw•”A1996”N7ŒŽ30“ú
83. ‹àŽqãàA‹{ìé–¾A‘]ªˆílFu”Md—Ê“V”‰‚ð—p‚¢‚½ƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh‚ÌCVD¬’·‰ß’ö‚Ì‚»‚ÌêŠÏŽ@vF‘æ‚Q‚V‰ñŒ‹»¬’·‘“à‰ï‹cNCCG-27A—§–½ŠÙ‘åŠw—HŠw•”A1996”N7ŒŽ30“ú
84. ‹{ìé–¾A’†‘º²•FC“¡–ì–LA²X–ؘa’jA‹àŽqãà,“ˆ“c‘å‰îC’Å–¼‘׎iC’ÓcˆÒ—YFuBi2212‚̃gƒ“ƒlƒ‹•ªŒõ–@‚É‚æ‚éƒtƒHƒmƒ“\‘¢‚ÌÄŒ»«IIvF“ú–{•¨—Šw‰ïAŽRŒû‘åŠwA1996”N10ŒŽ1“ú
85. ‹àŽqãàA‹{ìé–¾A‘]ªˆílA”Ñ“‡½A’†‘º—ÇŽ¡FuRFƒvƒ‰ƒYƒ}CVD–@‚É‚æ‚éMTS‚©‚ç‚̃VƒŠƒRƒ“ƒJ[ƒoƒCƒh–Œ‚̶¬‹@\vF“ú–{•¨—Šw‰ïAŽRŒû‘åŠwA1996”N10ŒŽ1“ú
86. “ˆ“c‘å‰î, F.W. de Wette,‹{ìé–¾A’ÓcˆÒ—YFuBi2Sr2CaCu2O8‚Å‚ÌŠeƒtƒHƒmƒ“ƒ‚[ƒh‚Ì’´“`“±‚Ö‚ÌŠñ—^vF“ú–{•¨—Šw‰ïAŽRŒû‘åŠwA1996”N10ŒŽ3“ú
87. ‹àŽqãàA‹{ìé–¾A‘]ªˆílA”Ñ“‡½FuRFƒvƒ‰ƒYƒ}CVD–@‚É‚æ‚郃`ƒ‹ƒgƒŠƒNƒƒƒVƒ‰ƒ“‚©‚çƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh‚Ì”––Œ¬’·vF SiC‹y‚ÑŠÖ˜AƒƒCƒhƒMƒƒƒbƒv”¼“±‘ÌŒ¤‹†‰ï‘æ5‰ñu‰‰‰ïA‹ž‘å‰ïŠÙA1996”N10ŒŽ31“ú
88. ‹àŽqãàA‹{ìé–¾A‘]ªˆílFuƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh‚ÌCVD¬’·‰ß’ö‚Ì”Md—Ê“V”‰‚É‚æ‚éd—Ê‚»‚ÌêŠÏŽ@vF SiC‹y‚ÑŠÖ˜AƒƒCƒhƒMƒƒƒbƒv”¼“±‘ÌŒ¤‹†‰ï‘æ5‰ñu‰‰‰ïA‹ž‘å‰ïŠÙA1996”N10ŒŽ31“ú
89. ‹àŽqãàA‹{ìé–¾A‘]ªˆílA”Ñ“‡½Fuƒƒ`ƒ‹ƒgƒŠƒNƒƒƒVƒ‰ƒ“‚ð—p‚¢‚½ƒvƒ‰ƒYƒ}CVD‚É‚æ‚éƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh¬–Œ‹@\vF•\–Ê‹Zp‹¦‰ï‘æ95‰ñu‰‰‘å‰ïA•‘ H‹Æ‘åŠwA1997”N3ŒŽ26“ú
90. ‹àŽqãàA‹{ìé–¾A‘]ªˆílFu‘½—l‚ÈCVDƒvƒƒZƒX‚Ì—¥‘¬‰ß’ö‚É‚æ‚镪—ނɂ‚¢‚ÄvF•\–Ê‹Zp‹¦‰ï‘æ95‰ñu‰‰‘å‰ïA•‘ H‹Æ‘åŠwA1997”N3ŒŽ26“ú
91. ‹àŽqãàA‹{ìé–¾A²X–ؘa’jF¢La-doped Bi2201‚Ì’PŒ‹»ˆç¬‚Æ‚»‚Ì•]‰¿£F‘æ28‰ñŒ‹»¬’·‘“à‰ï‹ciNCCG-28jA–k‘åŠwpŒð—¬‰ïŠÙA1997”N7ŒŽ23“ú
92. ‹àŽqãàA‹{ìé–¾A‘]ªˆílAŽRèOËAŽR“c‘å•ã:uMTS(CH3SiCl3)‚ð—p‚¢‚½ƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh‚ÌRFƒvƒ‰ƒYƒ}CVD‰ß’ö‚Ì”Œõ•ªŒõvF‘æ28‰ñŒ‹»¬’·‘“à‰ï‹ciNCCG-28jA–k‘åŠwpŒð—¬‰ïŠÙA1997”N7ŒŽ23“ú
93. ‹àŽqãàA‹{ìé–¾A‘]ªˆílFu”Md—Ê“V”‰‚ð—p‚¢‚½ƒVƒŠƒRƒ“ƒJ[ƒoƒCƒhCVD‰ß’ö‚̬’·ƒ‚ƒfƒ‹vF‘æ28‰ñŒ‹»¬’·‘“à‰ï‹ciNCCG-28jA–k‘åŠwpŒð—¬‰ïŠÙA1997”N7ŒŽ23“ú
94. ‹àŽqãàA‹{ìé–¾A‘]ªˆílAŽRèOËAŽR“c‘å•ãFuMTS‚ð—p‚¢‚½ƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh‚ÌRFƒvƒ‰ƒYƒ}CDV‰ß’ö‚Ì”Œõ•ªŒõvF‰ž—p•¨—Šw‰ïAH“c‘åŠwA1997”N10ŒŽ4“ú
95. ‹àŽqãàA‹{ìé–¾A‘]ªˆílAŽRèOË:uRFƒvƒ‰ƒYƒ}CVD–@‚É‚æ‚éMIS‚©‚ç‚̃VƒŠƒRƒ“ƒJ[ƒoƒCƒh–Œ¶¬‰ß’ö‚Ì”Œõ•ªŒõv:“ú–{•¨—Šw‰ïA“Œ–M‘åŠwA“ú–{‘åŠwA1998”N‚RŒŽ30“ú
96. ‹àŽqãàA‹{ìé–¾A‘]ªˆílAŽRèOËFuƒ‚ƒmƒƒ`ƒ‹ƒVƒ‰ƒ“‚ð—p‚¢‚½RFƒvƒ‰ƒYƒ}CVD–@‚É‚æ‚éƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh‚̬–ŒvF‘æ29‰ñŒ‹»¬’·‘“à‰ï‹ciNCCG-29jA•l¼‹³ˆç•¶‰»‰ïŠÙA1998”N7ŒŽ14“ú
97. ‹àŽqãàA‹{ìé–¾A‘]ªˆílAŽR“c‘å•ãFuMTS‚ð—p‚¢‚½CVD–@‚É‚æ‚éSiC”––Œ‚Ì”zŒü«vF‘æ29‰ñŒ‹»¬’·‘“à‰ï‹ciNCCG-29jA•l¼‹³ˆç•¶‰»‰ïŠÙA1998”N7ŒŽ14“ú
98. ‹àŽqãàA‹{ìé–¾A‘]ªˆílFu”Md—Ê“V”‰‚ð—p‚¢‚½ƒVƒŠƒRƒ“ƒJ[ƒoƒCƒhCVD‰ß’ö‚̬’·ƒ‚ƒfƒ‹IIvF‘æ29‰ñŒ‹»¬’·‘“à‰ï‹ciNCCG-29jA•l¼‹³ˆç•¶‰»‰ïŠÙA1998”N7ŒŽ14“ú
99. ‹{ìé–¾AJ.F. Zasadzinski, L. Ozyuzer, P. Guptasarma, D.G. Hinks, C. Kendziora, K.E. Gray, ‹àŽqãàFuBi2Sr2CaCu2O8+x‚̃gƒ“ƒlƒ‹ƒXƒyƒNƒgƒ‹‚ÌdopingˆË‘¶«vF“ú–{•¨—Šw‰ïA‰«“ê‘Û‘åŠwA1998”N‚XŒŽ‚Q‚U“ú
100. —é–ØdsA‹{ìé–¾A’ÓcˆÒ—YA‹àŽqãàFuBi2212‚̃gƒ“ƒlƒ‹Ú‡‚̃[ƒƒoƒCƒAƒXƒRƒ“ƒ_ƒNƒ^ƒ“ƒX‚̉·“xˆË‘¶«vF“ú–{•¨—Šw‰ïA‰«“ê‘Û‘åŠwA1998”N‚XŒŽ‚Q‚U“ú
101. ‹àŽqãàA‹{ìé–¾A‘]ªˆílAŽRèOËFuƒ‚ƒmƒƒ`ƒ‹ƒVƒ‰ƒ“‚ð—p‚¢‚½RFƒvƒ‰ƒYƒ}CVD–@‚É‚æ‚éƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh–Œ‚̶¬‹@\vF“ú–{•¨—Šw‰ïA—®‹…‘åŠwA1998”N‚XŒŽ‚Q‚U“ú
102. ‹àŽqãàA‹{ìé–¾A‘]ªˆílAŽRèOËFuRFƒvƒ‰ƒYƒ}CVD–@‚É‚æ‚éƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh–Œ‚̶¬‹@\vF SiC‹y‚ÑŠÖ˜AƒƒCƒhƒMƒƒƒbƒv”¼“±‘ÌŒ¤‹†‰ïA‹ž“sHŒ|‘@ˆÛ‘åŠwA1998”N11ŒŽ12“ú
103. ‹àŽqãàA‹{ìé–¾A‘]ªˆílAŽRèOËFuRFƒvƒ‰ƒYƒ}CVD–@‚É‚æ‚éƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh–Œ‚̶¬‹@\vF‰ž—p•¨—Šw‰ïA“Œ‹ž—‰È‘åŠwi–ì“cƒLƒƒƒ“ƒpƒXjA1999”N‚RŒŽ29“ú
104. ‘]ªˆílA‹àŽqãàA‹{ìé–¾FuƒVƒŠƒRƒ“ƒJ[ƒoƒCƒhCVD‰ß’ö‚É‚¨‚¯‚é‚QƒTƒCƒg‹£‡‹z’…ƒ‚ƒfƒ‹vF‘æ30‰ñŒ‹»¬’·‘“à‰ï‹ciNCCG-30jA‹ãB‘åŠw’}Ž‡ƒLƒƒƒ“ƒpƒXA1999”N7ŒŽ23“ú
105. ‹àŽqãàA‹{ìé–¾A‘]ªˆílAŽRèOËFu’Pˆêƒ\[ƒXRFƒvƒ‰ƒYƒ}CVD–@‚É‚æ‚éa-SiC”––Œ‚̶¬‹@\vF‘æ30‰ñŒ‹»¬’·‘“à‰ï‹ciNCCG-30jA‹ãB‘åŠw’}Ž‡ƒLƒƒƒ“ƒpƒXA1999”N7ŒŽ23“ú
106. ‹àŽqãàA‹{ìé–¾A”Ñì—T–çFuR Fƒvƒ‰ƒYƒ}CVD–@‚É‚æ‚éa-SiC‚̬–Œ‹y‚щ“ÔŠO•ªŒõ–@‚É‚æ‚é•]‰¿vF‘æ30‰ñŒ‹»¬’·‘“à‰ï‹ciNCCG-30jA‹ãB‘åŠw’}Ž‡ƒLƒƒƒ“ƒpƒXA1999”N7ŒŽ23“ú
107. ‹àŽqãàA‹{ìé–¾Aó–쌳•FFuFZ–@‚É‚æ‚éLa-doped Bi2201’PŒ‹»‚̈ç¬vF‘æ30‰ñŒ‹»¬’·‘“à‰ï‹ciNCCG-30jA‹ãB‘åŠw’}Ž‡ƒLƒƒƒ“ƒpƒXA1999”N7ŒŽ23“ú
108. •ÓŒ©‘å—SAó–쌳•FA²X–ؘa’jA‹{ìé–¾A‹àŽqãàFuBi2201‚̃gƒ“ƒlƒ‹•ªŒõvF“ú–{•¨—Šw‰ïAŠâŽè‘åŠwA1999”N‚XŒŽ‚Q4“ú
109. ‹àŽqãàA‹{ìé–¾A‘]ªˆílAŽRèËOFuƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh‚̃vƒ‰ƒYƒ}CVD‰ß’ö‚É‚¨‚¯‚锌õ‚Ì‹óŠÔ•ª•z‚ƶ¬‹@\vF“ú–{•¨—Šw‰ïAŠâŽè‘åŠwA1999”N‚XŒŽ‚Q4“ú
110. ‹{ìé–¾AJ.F. ZasadzinskiA‹àŽqãàAL. OzyuzerAK.E. GrayFuCuBa2Ca3Cu4Oy‚Ì€—±Žqƒgƒ“ƒlƒ‹•ªŒõvF“ú–{•¨—Šw‰ïAŠâŽè‘åŠwA1999”N‚XŒŽ‚Q7“ú
111. ‹{ìé–¾AJ.F. ZasadzinskiAL. OzyuzerAK.E. GrayA‹àŽqãàAFuƒgƒ“ƒlƒ‹ƒXƒyƒNƒgƒ‹‚ÉŠÏ‘ª‚³‚ꂽ‚ƒGƒlƒ‹ƒM[\‘¢iDip/Humpj‚ÌlŽ@F“ú–{•¨—Šw‰ïAŠÖ¼‘åŠwA2000”N3ŒŽ‚Q4“ú@
112. ó–쌳•FA‹{ìé–¾A•ÓŒ©‘å—SAÎŒ´‘ì–çA‘åŠÑ‘A‹àŽqãàFuƒg[ƒv—Ê‚ð§Œä‚³‚ꂽBi2Sr2-xLaxCuO6+dð‚Ì’PŒ‹»ˆç¬‹y‚уgƒ“ƒlƒ‹•ªŒõvFŠÖ¼‘åŠwA2000”N3ŒŽ‚Q4“ú
113. ‹àŽqãàA”Ñì—T–çA‹{ìé–¾Fuƒvƒ‰ƒYƒ}CVD–@‚É‚æ‚éa-SiC”––Œ‚ÌÔŠO•ªŒõIIvF‘æ31‰ñŒ‹»¬’·‘“à‰ï‹ciNCCG-31jA–¼ŒÃ‰®‘åŠwA2000”N‚VŒŽ28“ú
114. •ÓŒ©‘å—SAó–쌳•FA‘åŠÑ‘A‹{ìé–¾A‹àŽqãàFuŽ_‘f—Ê‚ð§Œä‚³‚ꂽBi2Sr2-xLaxCuO6+dð‚Ì’PŒ‹»ˆç¬vF‘æ31‰ñŒ‹»¬’·‘“à‰ï‹ciNCCG-31jA–¼ŒÃ‰®‘åŠwA2000”N‚VŒŽ28“ú
115. ‹àŽqãàC‹{ìé–¾C‘\ªˆílCŽRèOËA”Ñì—T–çFuƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh‚Ì‚q‚eƒvƒ‰ƒYƒ}‚b‚u‚c‰ß’ö‚Ì”Œõ•ªŒõ‚Æ–Œ‚Ì‚e‚s‚h‚qvF‰ž—p•¨—Šw‰ïC–kŠC“¹H‹Æ‘åŠwC 2000”NA‚XŒŽ‚S“ú
116. ‹{ìé–¾A•ÓŒ©‘å—SA‘åŠÑ‘Aó–쌳•FA‹àŽqãàFuƒgƒ“ƒlƒ‹•ªŒõ–@‚É‚æ‚éBi2Sr2-xLaxCuO6+dð‚Ì’´“`“±ƒMƒƒƒbƒv‚ÌdopingˆË‘¶«vF“ú–{•¨—Šw‰ïAVŠƒ‘åŠwA2000”N‚XŒŽ24“ú
117. ‘åŠÑ‘A•ÓŒ©‘å—SAó–쌳•FA‹{ìé–¾A‹àŽqãàFuBi2Sr2-xLaxCuO6+dð‚Ì’PŒ‹»ˆç¬‹y‚Ñ—A‘—“Á«vF“ú–{•¨—Šw‰ïAVŠƒ‘åŠwA2000”N‚XŒŽ23“ú
118. ‹àŽqãàA‹{ìé–¾A”Ñì—T–çFua-SiC‚̃vƒ‰ƒYƒ}CVD‰ß’ö‚É‚¨‚¯‚é‚ɬ’·ƒJƒCƒlƒeƒBƒNƒX‚Æ–Œ‚ÌÔŠO‹zŽû•ªŒõvF SiC‹y‚ÑŠÖ˜AƒƒCƒhƒMƒƒƒbƒv”¼“±‘ÌŒ¤‹†‰ï‘æ‚X‰ñu‰‰‰ïA–¼ŒÃ‰®‘Û‰ï‹cêA2000”N12ŒŽ13“ú
119. ‘åŠÑ‘A•ÓŒ©‘å—SAó–쌳•FA‹{ìé–¾A‹àŽqãàFuBi2Sr2-xLaxCuO6+dð’PŒ‹»‚̃gƒ“ƒlƒ‹“`“±“x‚ÌdopingˆË‘¶«FŽ_‘f—Ê‹y‚ÑLaŠÜ—L—Ê‚ÌŒø‰ÊvF“ú–{•¨—Šw‰ïA’†‰›‘åŠw‘½–€ƒLƒƒƒ“ƒpƒXA200‚P”N‚RŒŽ2‚W“ú
120. ‹àŽqãàA‹{ìé–¾A”Ñì—T–çFuƒvƒ‰ƒYƒ}CVD–@‚É‚æ‚éƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh”––Œ‚ÌFTIR‚ƶ¬‹@\vF“ú–{•¨—Šw‰ïA’†‰›‘åŠw‘½–€ƒLƒƒƒ“ƒpƒXA200‚P”N‚RŒŽ2‚W“ú
121. ‹{ìé–¾AJ.F. ZasadzinskiA L. OzyuzerA K.E. GrayA‹àŽqãàFuBi2Sr2CaCu2O8+dð‚̃gƒ“ƒlƒ‹ƒXƒyƒNƒgƒ‹ã‚Ìdip\‘¢‚ÆResonance Spin Excitation‚Æ‚ÌŠÖŒWvF“ú–{•¨—Šw‰ïA“¿“‡•¶—‘åŠw“¿“‡ƒLƒƒƒ“ƒpƒXA200‚P”N9ŒŽ17“ú
122. ‘åŠÑ‘A•ÓŒ©‘å—SAó–쌳•FA‹{ìé–¾A‹àŽqãàFuƒAƒ“ƒ_[ƒh[ƒvBi2Sr2-xLaxCuO6+dð’PŒ‹»‚̃gƒ“ƒlƒ‹•ªŒõvF“ú–{•¨—Šw‰ïA“¿“‡•¶—‘åŠw“¿“‡ƒLƒƒƒ“ƒpƒXA200‚P”N9ŒŽ17“ú
123. ‹àŽqãàA‹{ìé–¾A“¡ŽR—Yˆê˜YFuLPCVD–@‚É‚æ‚é’ቷƒVƒŠƒRƒ“Šî”‚ւÌ3C-SiC¶¬‰ß’öƒJ[ƒoƒCƒh”––Œ‚ÌFTIR‚ƶ¬‹@\vF“ú–{•¨—Šw‰ïA“¿“‡•¶—‘åŠw“¿“‡ƒLƒƒƒ“ƒpƒXA200‚P”N9ŒŽ17“ú
124. ‹àŽqãàA‹{ìé–¾A“¡ŽR—Yˆê˜YFuLPCVD–@‚É‚æ‚é’ቷƒVƒŠƒRƒ“Šî”‚ւÌ3C-SiC¶¬‰ß’övF‘æ32‰ñŒ‹»¬’·‘“à‰ï‹c(NCCG-32)A’·–ìŽsŽá—¢Žs–¯•¶‰»ƒz[ƒ‹A2002”NA8ŒŽ1“ú
125. ‹{ìé–¾AL. Ozyuzer, J.F. Zasadzinski, K.E. Gray, C. Kendziora,‹àŽqãàFu‰ßèƒh[ƒv‚³‚ꂽBi2Sr2CaCu2O8+x‚̃gƒ“ƒlƒ‹•ªŒõŒ¤‹†vF“ú–{•¨—Šw‰ïA’†•”‘åŠwA2002”N‚XŒŽ6“ú
126. ‹àŽqãàA‹{ìé–¾A“¡ŽR—Yˆê˜YFuƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh‚̒ሳCVD–@‚É‚¨‚¯‚éƒ\[ƒXƒKƒXEƒNƒ‰ƒbƒLƒ“ƒOŒø‰ÊvF“ú–{•¨—Šw‰ïA’†•”‘åŠwA2002”N‚XŒŽ‚V“ú
127. ‹àŽq ãàE‹{ìé–¾E“¡ŽR—Yˆê˜Y:u‚k‚o‚b‚u‚c–@‚É‚æ‚é’ቷƒVƒŠƒRƒ“Šî”‚ւÌ3C-SiC¶¬‰ß’ö‚ł̃\[ƒXƒKƒXEƒNƒ‰ƒbƒLƒ“ƒOŒø‰ÊvFSiC‹y‚ÑŠÖ˜AƒƒCƒhƒMƒƒƒbƒv”¼“±‘ÌŒ¤‹†‰ïA–@‘åŠwŽsƒ–’JƒLƒƒƒ“ƒpƒXA2002”N11ŒŽ21“ú(–Ø)�022“ú(‹à)
128. ‹àŽq ãàEª–{ ‘åE‹{ì é–¾Fu‚q‚eƒvƒ‰ƒYƒ}‚b‚u‚c–@‚É‚æ‚é‚-‚r‚‰‚b–Œ‚Ì…‘f‹z‘ —ÊvF‰ž—p•¨—Šw‰ïC_“Þì‘åŠwC2003”NA3ŒŽ29“ú@
129. ‹{ìé–¾Aí”Õ˜a–õAŽO“íãàA“n•ÓP•vA‹àŽqãàFu‘½‘wŒn“ºŽ_‰»•¨TlBa2Ca2Cu3O10-y‹y‚Ñ (Cu,C)Ba2Ca3Cu4O12+dð‚̃gƒ“ƒlƒ‹•ªŒõvF“ú–{•¨—Šw‰ïA“Œ–k‘åŠwA2003”N‚RŒŽ28“ú
130. ‹àŽq ãàEª–{ ‘åE‹{ì é–¾Fu‚q‚eƒvƒ‰ƒYƒ}‚b‚u‚c–@‚É‚æ‚é‚-‚r‚‰‚b–Œ‚Ì…‘fŠÜ—L—ʂƬ’·ƒJƒCƒlƒeƒBƒNƒXvF‘æ33‰ñŒ‹»¬’·‘“à‰ï‹c(NCCG-33)A‘åã‘åŠw“cƒLƒƒƒ“ƒpƒX“àƒRƒ“ƒxƒ“ƒVƒ‡ƒ“ƒZƒ“ƒ^[A2003”N7ŒŽ30“ú
131. ‹àŽq ãàEª–{ ‘åE‹{ì é–¾FuRFƒvƒ‰ƒYƒ}CVD–@‚É‚¨‚¯‚éa-SiC–Œ‚ÌFTIR‚É‚æ‚é…‘f’è—ʂƃs[ƒNƒVƒtƒgvF“ú–{•¨—Šw‰ïA‰ªŽR‘åŠwA2003”N9ŒŽ21“ú
132. ‹{ìé–¾Aí”Õ˜a–õAŽO“íãàA“n•ÓP•vA‹àŽqãàFu‘½‘wŒn“ºŽ_‰»•¨’´“`“±‘Ì‚Ì‚QƒMƒƒƒbƒv\‘¢Fƒgƒ“ƒlƒ‹ƒRƒ“ƒ_ƒNƒ^ƒ“ƒX‚̉·“xˆË‘¶«‚æ‚èvF“ú–{•¨—Šw‰ïA‰ªŽR‘åŠwA2003”N9ŒŽ23“ú
133. ‹àŽq ãàEª–{ ‘åE‹{ì é–¾Fu‚q‚eƒvƒ‰ƒYƒ}‚b‚u‚c–@‚É‚æ‚é‚-‚r‚‰‚b–Œ‚ÌFTIR‚Ƭ’·‹@\vFSiC‹y‚ÑŠÖ˜AƒƒCƒhƒMƒƒƒbƒv”¼“±‘ÌŒ¤‹†‰ï‘æ12‰ñu‰‰‰ïA“Þ—ÇŒ§•¶‰»‰ïŠÙA2003”N11ŒŽ6“ú
134. ‹{ìé–¾Aí”Õ˜a–õAŽO“íãàA“n•ÓP•vAˆÉ˜¬²A‹àŽqãàFu‘½‘wŒn“ºŽ_‰»•¨’´“`“±‘̂̃gƒ“ƒlƒ‹•ªŒõvF“ú–{•¨—Šw‰ïA‹ãB‘åŠwA2003”N3ŒŽ28“ú
135. ‹àŽq@ãàA‹{ì@é–¾A’|“c@Š¸A¬–ì@ˆŸŽ÷ŽqFu’Ê“d‰Á”MƒVƒŠƒRƒ“Šî”‚ւ̃KƒXƒNƒ‰ƒbƒLƒ“ƒO‚É‚æ‚éƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh’ሳCVDvF“ú–{•¨—Šw‰ïA‹ãB‘åŠw” èƒLƒƒƒ“ƒpƒX
136. ‹àŽq ãà,‹{ì é–¾,’|“c Š¸,¬–숟Ž÷ŽqFu’Ê“d‰Á”MƒVƒŠƒRƒ“Šî”‚ւ̃KƒXƒNƒ‰ƒbƒLƒ“ƒO‚É‚æ‚éƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh’ሳCVDvF‘æ34‰ñŒ‹»¬’·‘“à‰ï‹c(NCCG-34)A“Œ‹ž”_H‘åŠw¬‹àˆäƒLƒƒƒ“ƒpƒX2004”N8ŒŽ25“ú
137. ‹àŽq ãàEª–{ ‘åE‹{ì é–¾Fu‚q‚eƒvƒ‰ƒYƒ}‚b‚u‚c–@‚É‚¨‚¯‚é‚-‚r‚‰‚b–Œ‚ÌŒõŠwƒMƒƒƒbƒvvF“ú–{•¨—Šw‰ïAÂX‘åŠwA2004”N9ŒŽ12“ú
138. ‹àŽq ãàEª–{ ‘åE‹{ì é–¾Fu‚q‚eƒvƒ‰ƒYƒ}‚b‚u‚c–@‚É‚¨‚¯‚é‚-‚r‚‰‚b–Œ‚ÌŒõŠwƒMƒƒƒbƒvvFSiC‹y‚ÑŠÖ˜AƒƒCƒhƒoƒ“ƒhƒMƒƒƒbƒv”¼“±‘ÌŒ¤‹†‰ï‘æ13‰ñu‰‰‰ïA–¼ŒÃ‰®‘Û‰ï‹cêA2004”N10ŒŽ21“ú
139. ‹{ìé–¾Aí”Õ˜a–õA“n•ÓP•vA“c’†NŽ‘AˆÉ˜¬²A‹àŽqãàFu‘½‘wŒn“ºŽ_‰»•¨HgBa2Ca2Cu3Oy‹y‚ÑBa2Ca3Cu4O8(O1-xFx)2‚̃gƒ“ƒlƒ‹•ªŒõvF“ú–{•¨—Šw‰ïA“Œ‹ž—‰È‘åŠw–ì“cƒLƒƒƒ“ƒpƒXA2005”N3ŒŽ25“ú
140. ‹àŽqãàAªŒ³‘åA‘׈ä‚Ü‚Ç‚©A‹{ìé–¾Fu”ñ»Ž¿…‘f‰»•À‚Ñ‚É‘½Œ‹»ƒVƒŠƒRƒ“ƒJ[ƒoƒCƒh–Œ‚ÌŒõŠwƒMƒƒƒbƒvvF“ú–{•¨—Šw‰ïA“Œ‹ž—‰È‘åŠw–ì“cƒLƒƒƒ“ƒpƒXA2005”N3ŒŽ27“ú
141. ‹àŽq ãàC‹{ì é–¾C×ì—Yˆê˜NC›@r—SFuCat-CVD‚¨‚æ‚ÑPlasma CVD‚É‚æ‚éSiC”––Œ‚̬’·vF‘æ2‰ñCat-CVDŒ¤‹†‰ïA‘åãŽs—§‘åŠwŠwpî•ñ‘‡ƒZƒ“ƒ^[A2005”N6ŒŽ23“ú`24“ú
142. ‹àŽq ãàC‹{ì é–¾C›@r—SC×ì—Yˆê˜NFuƒ‚ƒmƒƒ`ƒ‹ƒVƒ‰ƒ“‚ð—p‚¢‚½Cat-CVD–@‚É‚æ‚é”÷Œ‹»SiC‚̒ቷ¬’·vF‘æ35‰ñŒ‹»¬’·‘“à‰ï‹c(NCCG-35)AL“‡‘åŠw“ŒL“‡ƒLƒƒƒ“ƒpƒXA2005”N8ŒŽ17“ú
143. ‹àŽq ãàC‹{ì é–¾C¬–숟Ž÷ŽqC’·“c‰pŽ÷Fu’ሳCat-CVD–@‚É‚æ‚é‚RC-SiC”––Œ¬’·vF‘æ35‰ñŒ‹»¬’·‘“à‰ï‹c(NCCG-35)AL“‡‘åŠw“ŒL“‡ƒLƒƒƒ“ƒpƒXA2005”N8ŒŽ17“ú
144. ‹àŽq ãàC‹{ì é–¾C×ì—Yˆê˜NC›@r—SFuPlasma CVD‚¨‚æ‚ÑCat-CVD‚É‚æ‚éSiC”––Œ‚̬’·vF‘æ35‰ñŒ‹»¬’·‘“à‰ï‹c(NCCG-35)AL“‡‘åŠw“ŒL“‡ƒLƒƒƒ“ƒpƒXA2005”N8ŒŽ17“ú
145. ‹{ìé–¾AˆÉ˜¬²Aí”Õ˜a–õA“c’†NŽ‘A“n•ÓP•vA‹àŽqãàFuBa2Ca3Cu4O8(O1-xFx)2‚̃gƒ“ƒlƒ‹•ªŒõvF“ú–{•¨—Šw‰ïA“¯ŽuŽÐ‘åŠwA2005”N9ŒŽ2‚P“ú
146. ‹àŽqãàA‹{ìé–¾A›r—SA’·“c‰pŽ÷Fuƒ‚ƒmƒƒ`ƒ‹ƒVƒ‰ƒ“‚©‚ç‚ÌCat-CVD‚É‚æ‚émðc-SiC‚̒ቷ¬’·vFSiC‹y‚ÑŠÖ˜AƒƒCƒhƒoƒ“ƒhƒMƒƒƒbƒv”¼“±‘ÌŒ¤‹†‰ï‘æ14‰ñu‰‰‰ïA‹ž“s‘åŠw•SŽü”NŽžŒv‘ä‹L”OŠÙA2005”N11ŒŽ10“ú`2005”N11ŒŽ11“ú
147. ‹{ìé–¾Aí”Õ˜a–õAŽO“í‘A“n•ÓP•vA“c’†NŽ‘AˆÉ˜¬²A‹àŽqãàFuTlBa2Ca2Cu3Oy‚̃gƒ“ƒlƒ‹“`“±“x‚̉·“xˆË‘¶«vF“ú–{•¨—Šw‰ïAˆ¤•Q‘åŠwA2006”N3ŒŽ27“ú
148. ‹àŽqãàA‹{ìé–¾A›r—SA’·“c‰pŽ÷FuCat-CVD‚É‚æ‚émðc-SiC‚̒ቷ¬’·vF“ú–{•¨—Šw‰ïAˆ¤•Q‘åŠwA2006”N3ŒŽ28“ú
149. ‹{ìé–¾Aí”Õ˜a–õAŽO“í‘A“n•ÓP•vAˆÉ˜¬²A“c’†NŽ‘A‹àŽqãàFu‘½‘wŒn“ºŽ_‰»•¨‚Ì’´“`“±ƒMƒƒƒbƒv‚̃h[ƒsƒ“ƒOˆË‘¶«vF“ú–{•¨—Šw‰ïAç—t‘åŠwA2006”N9ŒŽ24“ú