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1. Y. Horio, H. Nakahara, J. Yuhara, Y. Takakuwa, Correlation between Plasmon Excitations and Wavefields under Reflection High-Energy Electron Diffraction Condition, e-J. Surf. Sci. Nanotechnol. 20 (2022) pp.76-84. 2. Y. Horio, H. Nakahara, J. Yuhara and Y. Takakuwa: Beam Rocking Auger Electron Spectroscopy of a Si(111)√3×√3-Ag Surface, e-J. Surf. Sci. Nanotechnol. 18 (2020) pp.139-145. 3. Y. Horio, J. Yuhara and Y. Takakuwa: Relation between Auger enhancements and wave field of high energy electrons for planar surface bilayer of InP(111)A-(1×1), Jpn. J. Appl. Phys. 59 (2020) 070905 (pp.1-5). 4. Y. Horio, J. Yuhara, and Y. Takakuwa:Structural analysis of InP(111)A Surface using reflection high-energy electron diffraction rocking curves, Jpn. J. Appl. Phys., 58 (2019) SIIA14 (pp.1-7). 5. Y. Horio, R. Yamazaki, J. Yuhara, Y. Takakuwa, and M. Yoshimura: Behavior of Wave Field on Graphite Surface Observed Using Reection High-Energy Electron Diffraction Technique, e-J. Surf. Sci. Nanotech. 16 (2018) pp.88-92. 6. Y. Horio, J. Yuhara, Y. Takakuwa, S. Ogawa, and K. Abe: Polarity identification of ZnO(0001) surface by reflection high-energy electron diffraction, Jpn. J. Appl. Phys. 57 (2018) 045701 (pp.1-4). 7. Y. Horio, Y. Takakuwa, S. Ogawa and K. Abe: “Auger Intensity Anomalies from ZnO(0001) Surface Excited by RHEED Incident Beam”, e-J. Surf. Sci. Nanotech., 14 (2016) pp.92-96. 8. Y. Horio, Y. Watanabe, Y. Takakuwa and S. Ogawa:”RHEED Patterns Calculated for Pt Nano Clusters on TiO2(110) Substrate”, e-J. Surf. Sci. Nanotech., 13 (2015) pp.125-128. 9. Y. Horio, Y. Takakuwa and S. Ogawa:”Dimer Configuration of Si(001)2×1 Surface by Projected Potential Approach of Reflection High-Energy Electron Diffraction”,e-J. Surf. Sci. Nanotech., 12 (2014) pp.380-386. 10. Y. Horio, Y. Takakuwa and S. Ogawa: ”Auger intensity anomalies from the Si(001)2×1 surface excited by the wave field of RHEED”,Surf. Interface Anal.,46 (2014) pp.1165-1169. 11. 堀尾吉已、高桑雄二、小川修一:”Si(001)表面に対するRHEED入射電子波動場”, 表面科学, 34, (2013) pp.334-339. 12. Y. Horio: “Morphological Evaluation of Ge Nanoclusters by Spot Shape of Surface Electron Diffraction”, e-J. Surf. Sci. Nanotech., 10 (2012) pp.18-21. 13. Y. Horio, Y. Hara, Y. Yamamoto, Y. Morimoto and T. Naitoh: “Temperature Dependence of Oxygen Diffusion and Crystal Structure for Thermally Oxidized Titanium Thin Films”, Jpn. J. Appl. Phys., 51 (2012) 015604 (pp.1-6). 14. 堀尾吉已: RHEEDによるナノクラスタの形態評価, 表面科学, 32 (2011) pp.325-330. 15. Y. Horio and D. Sakai: Auger intensity from Si(001)2×2-Al Surface Excited by Wave-Field in Medium-Energy Electron Diffraction, Jpn. J. Appl. Phys., 48 (2009) 066501 (pp.1-5). 16. Y. Horio and D. Sakai: Correlation between Auger Intensity and Wave-Field Intensity for Si(001)2×2-Al Surface, e-J. Surf. Sci. Nanotech., 7 (2009) pp.97-101. 17. Y. Horio: Kikuchi Patterns Observed by New Astrodome RHEED, e-J. Surf. Sci. Nanotech. 4 (2006) pp.1-6. 18. 堀尾吉已: 微傾斜表面からのRHEED菊池図形, 表面科学, 27 (2006) pp.46-53. 19. 堀尾吉已, 原 裕一郎, 山本宣孝, 森本裕樹: 自作電子衝撃加熱装置による高融点チタン金属の真空蒸着, 真空, 48 (2005) pp.282-285. 20. 堀尾吉已: エネルギーフィルター型RHEED-AESによる表面研究, 表面科学, 24 (2003) pp.145-152. 21. 堀尾吉已: RHEED波動場によるオージェ電子強度変化, 表面科学, 23 (2002) pp.497-502. 22. Y. Horio and T. Hara: Energy-Filtered Reflection High-Energy Electron Diffraction Apparatus Combined with Energy-Loss Measurement System, Jpn. J. Appl. Phys., 41 (2002) pp.L736-L737. 23. Y. Horio and S. Satoh: Observation of Triangular Terraces and Triangular Craters of CaF2 Film on Si(111) Substrate, Appl. Surf. Sci., 190 (2002) pp.80-87. 24. 堀尾吉已, 佐藤誓一: Si(111)7×7基板上に成長するCaF2薄膜表面形態のAFM観察, 表面科学, 22 (2001) pp.552-560. 25. 堀尾吉已: EF-RHEED図形内の微傾斜Si(001)表面ステップ情報, 表面科学, 22 (2001) pp.522-529. 26. Y. Horio: Structural Study of Al Deposited Surface on Si(111)√3×√3-Al, Appl. Surf. Sci., 169-170 (2001) pp.104-108. 27. 堀尾吉已, 佐藤誓一, 岩間三郎: Si(111)7×7表面上のCaF2成長のRHEED観察, 表面科学, 21 (2000) pp.473-480. 28. Y. Horio: Surface Morphology of Growing Al on Si(111)7×7 and Si(111)√3×√3-Al Substrates by Reflection High-Energy Electron Diffraction, Jpn. J. Appl. Phys., 39 (2000) pp.4374-4375. 29. S. Hara, K. Watanabe, Y. Horio and I. Hashimoto: Effect of Surface Plasmons on Energy Filtered RHEED Rocking Curves from a Si(111)-7×7 Surface, Phys. Stat. Sol. (a), 176 (1999) pp.925-936. 30. Y. Horio: Different Growth Modes of Al on Si(111)7×7 and Si(111)√3×√3-Al Surfaces, Jpn. J. Appl. Phys., 38 (1999) pp.4881-4886. 31. K. Watanabe, S. Hara, Y. Horio and I. Hashimoto: A Two-Dimensional Bloch-Wave Method for Dynamical RHEED Calculations, Acta Cryst., A54 (1998) pp.452-459. 32. Y. Horio: Behaviors of Auger Intensities Emitted from a Si(111)√3×√3-Al Surface During Incident Beam Rocking of Reflection High-Energy Electron Diffraction, Jpn. J. Appl. Phys., 37 (1998) pp.L164-L166. 33. Y. Horio: Fundamental Relation between Wave Fields, Rocking Curves and Anomalous Absorption for the RHEED of Si(111) Crystals, Phys. Rev. B, 57 (1998) pp.4736-4746. 34. Y. Horio and Y. Urakami: Energy Loss Spectroscopy for Li/Si by Energy Filtered RHEED, Appl. Surf. Sci., 130-132 (1998) pp.851-854. 35. Y. Horio, Y. Urakami and Y. Hashimoto: Inelastic Scattering Component in Si(111)7x7 RHEED Pattern by Energy Filtering Method, Surf. Rev. Lett., 5 (1998) pp.755-760. 36. Y. Horio and Y. Hashimoto: Observation of Vicinal Si(111)7×7 Surface by Energy-Filtered Reflection High-Energy Electron Diffraction, Jpn. J. Appl. Phys., 36 (1997) pp.L808-L810. 37. P. M. Derlet, A. E. Smith and Y. Horio: Geometrical Correction to Plasmon Effects in Energy Filtered RHEED Spectra, Surf. Sci., 393 (1997) pp.85-94. 38. A. Ichimiya, Y. Ohno and Y. Horio: Structural Analysis of Crystal Surfaces by Reflection High-Energy Electron Diffraction, Surf. Rev. Lett., 4 (1997) pp.501-511. 39. Y. Horio: Structure Analysis of Si(111)√3×√3-Al by Energy-Filtered RHEED, Surf. Rev. Lett., 4 (1997) pp.977-983. 40. 堀尾吉已: エネルギーフィルター型RHEEDから得られる新情報, 表面科学, 17 (1996) pp.447-453. 41. Y. Horio: Zero-Loss Reflection High-Energy Electron Diffraction Patterns and Rocking Curves of the Si(111)7×7 Surface by Energy Filtering, Jpn. J. Appl. Phys., 35 (1996) pp.3559-3564. 42. A.E.Smith, Y. Horio, H.Iwashige and A. Ichimiya: Surface Polytypic Determination of Niobium Diselenide by RHEED, Appl. Surf. Sci., 357-358 (1996) pp.213-217. 43. Y. Horio, Y. Hashimoto and A. Ichimiya: A New Type of RHEED Apparatus equipped with an Energy Filter, Appl. Surf. Sci., 100-101 (1996) pp.292-296. 44. Y. Horio and A. Ichimiya: Wave Fields in Si(111) Layers at RHEED Conditions, Surface Science, 348 (1996) pp.344-358. 45. Y. Horio, Y. Hashimoto, K. Shiba and A. Ichimiya: Development of Energy-Filtered Reflection High-Energy Electron Diffraction Apparatus, Jpn. J. Appl. Phys., 34 (1995) pp.5869-5870. 46. 一宮彪彦, 堀尾吉已: シリコン成長表面の原子構造, 日本結晶成長学会誌, 21 (1994) PP.S287-S294. 47. A. Ichimiya, M. Ando, S. Kohmoto and Y. Horio: Structure Analysis of Si(111)√3×√3-Ag by RHEED, The Structure of Surfaces, 4 (1994) pp.408-413. 48. A. Ichimiya, T. Sato, T. Sueyoshi and Y. Horio: Formation of √21×√21 Structure by Gold Deposition on Si(111)√3×√3-Ag Surface and Wavering Behavior, Surf. Rev. Lett., 1 (1994) pp.1-7. 49. Y. Horio and A. Ichimiya: Origin of Phase Shift Phenomena in RHEED Intensity Oscillation Curves, Ultramicroscopy, 55 (1994) pp.321-328. 50. Y. Horio and A. Ichimiya: Phase Shift and Frequency Doubling of RHEED Intensity Oscillation: One-beam dynamical calculations for Ge on Ge(111), Ultramicroscopy, 55 (1994) pp.321-328. 51. Y. Horio and A. Ichimiya: Dynamical Diffraction Effect for RHEED Intensity Oscillation: Phase shift of oscillations for glancing angles, Surface Science, 298 (1993) pp.261-272. 52. A. Ichimiya, S. Kohmoto, H. Nakahara and Y. Horio: Theory of RHEED and Application to Surface Structure Studies, Ultramicroscopy, 48 (1993) pp.425-432. 53. Y. Horio, A. Ichimiya, S. Kohmoto and H. Nakahara: Kinematical Analysis of RHEED Pattern from Hydrogen adsorbed Si(111)δ7×7, Surface Science, 257 (1991) pp.167-174. 54. A. Ichimiya, S. Kohmoto, T. Fujii and Y. Horio: RHEED Intensity Analysis of Si(111)√3×√3-Ag Structure, Applied Surface Science, 41/42 (1989) pp.82-87. 55. Y. Horio and A. Ichimiya: Kinematical Analysis of RHEED Intensities from the Si(111)7×7 Structure, Surface Science, 219 (1989) pp.128-142. 56. Y. Horio and A. Ichimiya: Surface Structure Study of Si(111)√3×√3-Ag by Incident Beam Rocking AES Method, Surface Science, 164 (1985) pp.589-601. 57. Y. Horio and A. Ichimiya: RHEED Intensity Analysis of Si(111)7×7 and √3×√3-Ag Surfaces, Surface Science, 133 (1983) pp.393-400. 58. Y. Horio and A. Ichimiya: Intensity Anomalies of Auger Electron Signals observed by Incident Beam Rocking Method for Si(111)7×7 and Si(111)√3×√3-Ag Surfaces, Physica, 117B&118B (1983) pp.599-605. その他 1. 堀尾吉已:RHEEDに対する雑感 [巻頭言],表面科学,38 (2017) 323. |