1. 著書　/ Books

1.  梅澤憲司、本多信一、2020版 薄膜作製応用ハンドブック発行所：監修者：權田 俊一、第3編 薄膜・表面・界面の分析・評価、第2章 薄膜分析・評価対象各論、第3節 形態分析(粒子ビームを用いた分析)、pp. 851～857., 2020年1月発行、発行所(株)エヌ・ティー・エス、ISBN 978-4-86043-631-5 C3058

2. K. Umezawa, “Low energy ion scattering spectroscopy”, AMS Handbook, Vol. 10, pp. 185-191, USA, 2019, December, ISBN  978-1-62708-213-6.

3. K. Umezawa, “Compendium of Surface and Interface Analysis”, chap. 56 “Low energy ion scattering spectroscopy”, (The surface science society of Japan), Springer, ISBN-10: 9811061556、2018年、pp. 343-348.
4. 梅澤憲司、”マイクロビームアナリシス・ハンドブック”（日本学術振興会　マイクロビームアナリシス第141委員会　編）, 2.5.4節　「低速イオン散乱分光法」、「低速原子散乱分光法」、オーム社、ISBN978-4-274-50496-9, 2013年、pp. 252-255.
5. 梅澤憲司、尾浦憲治郎、”表面物性工学ハンドブック(第2版)”, 2.4.1節　「低速イオン散乱分光法」、丸善出版社、2007年、pp.138-139.
6. 尾浦憲治郎、梅澤憲司、”表面物性工学ハンドブック(第2版)”, 2. 4. 2 節　「高速イオン散乱分光法」、丸善出版社、2007年、pp.139-142.
7. 梅澤憲司、”表面物性工学ハンドブック(第2版)”, 3. 4. 1 節　「低速イオン散乱」、 丸善出版社、2007年、pp.174-176.
8. 尾浦憲治郎、梅澤憲司、”表面物性工学ハンドブック(第2版)”, 3.4.2節　「ラザフォード後方散乱分光(RBS)」、丸善出版社、2007年、pp.176-182.
9. 尾浦憲治郎、梅澤憲司、”表面物性工学ハンドブック(第2版)”, 3. 4. 3節「弾性反跳粒子検出(ERDA)」、丸善出版社、2007年、pp.182-184.
10. 梅澤憲司、 ”イオン工学ハンドブック”(pp.1-1225), 8.1.8節PIXE (particle induced x-ray emission)
(pp.603-605)、水野博之監修、イオン工学研究所、2003年4月15日発行.
11. 梅澤憲司、 ”イオン工学ハンドブック”(pp.1-1225), 8.1.9節ERDA (elastic recoil detection analysis) (pp. 605-607)、水野博之監修、イオン工学研究所、2003年4月15日発行.
12. ”物理学実験（第6版）”、大阪府立大学高等教育推進機構 物理学グループ編、学術図書出版社、ISBN978-4-7806-0622-5、2018年.

2. 学術論文(査読付) / Scientific Paper (peer-reviewed)

2-1 Education (peer-reviewed)

(1) Physics education
1. K. Umezawa, “Simple experimental equipment for undersdanding rot A”, J. Phys. Edu. Soc. Jpn., vol. 55 (2007) pp. 224-226, in Japanese.

2-2 Research (peer-reviewed)

(1) Applications for Free Electron Laser
1. Y. Maeda, K. Umezawa, Y. Hayashi, "Silicone nanostructure fablication using IR-FELs and its optical properties", Nucl. Instr. and Meth. B, vol. 144 (1998) pp. 152-159.
2. K. Umezawa, Y. Maeda, Y. Mizokawa, Y. Kamiura, Y. Hyashi, “Surface Science using Free Electron Laser”, IONICS vol. 23 (1997) pp. 67-72 in Japanese.
3. Y. Maeda, K. Umezawa, Y. Hayashi, “Irradiation effects of IR-Free electron lasers on semiconduting materials from amorphous silicon to porous silicone”, IONICS, vol. 23 (1997) pp.59-65 in Japanese.

(2) β-FeSi2 semiconductor
1. R. Tsushima, Y. Michishita, S. Fujii, H. Okado, K. Umezawa, Y. Maeda, Y. Terai, K. Oura, M. Katayama, “Growth and process and structure of Fe/Si(111) ultrathin film: transition from single-domain Fe(111)/Si(111) to β-FeSi2”, Surf. Sci., vol. 579 (2005) pp. 73-79.
2. Y. Maeda, K. Umezawa, Y. Hayashi, K. Miyake, “Raman spectroscopic study of ion-beam synthesized polycrystalline β-FeSi2 on Si(100)”, Thin Solid Films 381 (2001) 219-224.
3. Y. Maeda, K. Umezawa, Y. Hayashi, K. Miyake, K. Ohashi, “Photovolatic properties of ion-beam synthesized β-FeSi2/n-Si heterojunctions”, Thin Solid Films 381 (2001) 256-261.
4. Y. Maeda, K. Umezawa, K. Miyake, K. Ohashi, “Infrared-photovoltac responses of ion-beam synthesized β-FeSi2/n-Si heterojunctions”, Mat. Res. Soc. Symp. Proc. vol. 607 (2000) pp. 315-320.
5. K. Tagaya, Y. Hayashi, Y. Maeda, K. Umezawa, K. Miyake, “Magnetic properties of β-FeSi2 semiconductor”, Jpn. J. Appl. Phys. vol. 39 (2000) pp. 4751-4752.
6. Y. Maeda, K. Umezawa, T. Ito, S. Yamamoto, I. Nshiyama, “Carrier control of β-FeSi2 by 1.2 MeV-Au++ ion implantation”, TIARA annual report (JAERI-Review 2000-024) (2000), pp.151-153.
7. Y. Maeda, T. Fujita, T. Akita, K. Umezawa, K. Miyake, “Ion-beam synthesized semiconduting controlled by annealing procedures and phase transitions”, Mat. Res. Soc. Symp. Proc., vol. 486 (1998) pp. 329-334.
8. Y. Maeda, T. Akita, K. Umezawa, K. Miyake, M. Sagawa, “Ion beam synthesis of β-FeSi2 as an IR phtosensitive material”, Opt. Mat. Dev., vol. 3419 (1998) pp. 354-360.
9. Y. Maeda, T. Fujita, K. Umezawa, K. Miyake, “Radiation-enhanced diffusion of ion-implanted Fe in Si(100) observed in ion beam synthesis  of β-FeSi2”, Inst. Phys. C, vol. 157 (1997) pp. 511-514.

(3) High energy ion beam analysis
1. K. Umezawa, ”Ion beam Handbook, Chapters PIXE, ERDA”, Publication in 2001, in Japanese.
2. H. Kudo, A. Tanabe, T. Ishihara, S. Seki, K. Umezawa, S. Yamamoto, Y. Aoki, P. Goppelt- Langer, H. Takeshita, H. Naramoto, ”Advanced ion beam analysis of materials using ion- induced fast electron”,Proceeding of the 7th international symposium on advanced nuclear energy research recent
progress in accelerator beam application (JAERI-Conf. 97-003) pp114- 116.
3. H. Kudo, A. Sakamoto, S. Yamamoto, Y. Aoki, H. Naramoto, T. Inoue, M. Satoh, Y. Yamamoto, K. Umezawa, S. Seki, “Analysis of misorented crstal-structure by ion channeling observed using ion-induced secondary electrons”, Jpn. J. Appl. Phys. Lett., vol. 35 (1996) pp. L1538-L1541.
4. H. Kudo, S. Yamamoto, Y.Aoki, H.Naramoto, K. Umezawa, “High-sensitivity characterization of crystalline materials by ion channeling pbseerved with keV secondary electrons induced by 2MeV-protons”, JAERI TIARA annual report (JAERI-Review 96-017), vol. 5(1995) pp.148- 150.
5. K. Umezawa, T. Kuroi, J. Yamane, F. Shoji, K. Oura, T. Hanawa, S. Yano, “Quantitative hydrogen analysis by simultaneous detection of 1H(19F,alfa, gamma)16O at 6.46MeV and 19F-ERDA”, Nucl. Instr. and Meth. B, vol. 33 (1988) pp. 634-637.6. K. Umezawa, “………………… “, Nucl. Instrum. Meth. B (1987) pp.

(4) Hydrogen in thin films
1. S. Olsson, B. Hjorvarsson, E. B. Svedberg, K. Umezawa, “Interaction between hydrogen in Nb/W(110) superlattices”, Phys. Rev. B vol. 66 (2002) 155433.
2. K. Umezawa, F. Shoji, T. Hanawa, K. Oura, “Elastic recoil detection analysis of the concentration and thermal release of hydrogen in a-Si:H films by the ECR plasma CVD method”, Jpn. J. Appl. Phys., vol. 29 (1990) pp. 1656-1657.
3. T. Kuroi, K. Umezawa, J. Yamane, F. Shoji, K. Oura, T. Hanawa, “Ion beam analysis of the concentration and thermal release of hydrogen in silicon-nitride films prepared by ECR plasma CVD method”, Jpn. J. Appl. Phys., vol.27 (1988) pp. 1406-1410.
4. K. Umezawa, J. Yamane, T. Kuroi, F. Shoji, K. Oura, T. Hanawa, “Nuclear reaction analysis and elastic recoil detection analysis of the retention of deuterium and hydrogen implanted into Si and GaAs　crystals”, Nucl. Instr. and Meth. B, vol. 33 (1988) pp. 638-640.

(5) Hydrogen onto solid surfaces
1. T. Ito, K. Umezawa and S. Nakanishi, “Hydrogen adsorption site on the Ni{111}-(2×2)-H: a TOF-LERS study”, Appl. Surf. Sci., vol. 147 (1999) pp. 146-152.
2. K. Umezawa, T. Ito, S. Nakanishi, “Low-energy recoil scattering from hydrogen adsorbed on Ni(111)”, Nucl. Instr. and Meth. B, vol. 138 (1998) pp. 1121-1124.
3. K. Umezawa, T. Ito, M. Asada, S. Nakanishi, P. Ding, W. A. Lanford, B. Hjorvarsson, “Adsorption of hydrogen on the Pt(111) surface from low-energy recoil scattering”, Surf. Sci., vol. 387 (1997) pp. 320-327.
4. K. Umezawa, S. Nakanishi, S. Yamamoto, K. Narumi, Y. Aoki, and H. Naramoto,
“Hydrogen adsorption sites on a Pt{111}-(1×1)-H and a Ni{111}-(2×2)-H: a LERS study”, JAERI TIARA annual report, vol. 7 (1997) pp. 178-180.
5. K. Umezawa, S. Nakanishi, K. Oura, “Hydrogen analysis on materials using high and low energy ion beam scattering”, J. Vac. Soc. Jpn., vol. 39 (1996) pp.569-573. (review article)
6. K. Oura, M. Naitoh, F. Shoji, J. Yamane, K. Umezawa, T. Hanawa, “Elastic recoil detection analysis of hydrogen adsorbed on solid surfaces”, Nucl. Instr. and Meth. B, vol. 45 (1990) pp. 199-202.
7. K. Oura, J. Yamane, K. Umezawa, M. Naitoh, F. Shoji, T. Hanawa, “Hydrogen adsorption on Si(100)-2×1 surfaces studied by elastic recoil detection analysis”, Phys. Rev. B, vol. 41 (1990) pp. 1200-1203.

(6) Interactions between ion beams and polymers
1. K. Umezawa, S. Nakanshi, W. M. Gibson, H. L. Frisch, A. Kitamura, “Study of diffusion and trapping of a fluorinated hydrogen in ion beam irradiated poly(styrene) by nuclear resonance reaction analysis”, Appl. Phys. Lett., vol. 65 (1994) pp. 1501-1503.
2. K. Umezawa, W. M. Gibson, J. T. Welch, P. G. Zhou, Q. H. Xu, H. L. Frisch, “Study of diffusion of a fluorinated hydrocarbon in ion beam irradiated poly(styrene) by nuclear resonance reaction analysis”, Appl. Phys. Lett., vol. 61 (1992) pp. 1603-1604.
3. K. Umezawa, W. M. Gibson, J. T. Welch, K. Araki, G. Barros, H. L. Frisch,
“A study of case II diffusion of a fluorinated hydrocarbon in poly(styrene) by resonance nuclear reaction analysis", J. Appl. Phys., vol. 71 (1992) pp. 681-684.

(7) Metal surface structures and metal epitaxy (including low energy atom scattering)

1.  H. Fukuta, K. Umezawa, M. Yoshimoto, “Surface atomic structure using low energy atom scattering spectroscopy: BaF2(111)”, Nucl. Instrum. Meth. B, vol. 479 (2020) pp. 1-6.

2. T. Fukuda, I. Kishida, K. Umezawa, “Formation of two-dimensional silicide on Ni(100) surface”,
Jpn. J. Appl. Phys., vol. 59 (2020) 065501 (1-7).
3. T. Fukuda, I. Kishida, K. Umezawa,  “Initial surface silicidation on Ni(110)”, Surf. Sci., vol. 659 (2017)pp.1-4.
4. 梅澤憲司, “低速イオン、原子散乱分光による表面解析”, 表面科学（日本表面科学会誌）, Vol. 38, (2017), pp. 158-163.
5. Y. Kamiura, K. Umezawa, Y. Teraoka, A. Yoshigoe, “Characterization of Polycrystalline Tungsten Surfaces Irradiated with Nitrogen Ions by X-ray Photoelectron Spectroscopy”, Materials Transactions, vol. 57, (2016) pp. 1609 to 1614.
6. M. Hashimoto, K. Umezawa, T. Yasue, T. Koshikawa, “Temperature dependence of growth mode and epitaxial orientation on Au/Ni(111)”, Surf. Sci., vol.  622, (2014) pp. 60-64.
7. T. Fukuda, K. Umezawa, H. Nakayama, “Stranski–Krastanow growth of copper overlayers on the Ni(110) surface”, Surf. Sci., vol. 606, (2012), pp. 1221-1226.
8. K. Umezawa, “The systems of TOF-low energy Ne scattering spectroscopy for insulator”, e-J. Surf. Sci. Nano, vol. 8 (2010) pp. 194-196.
9. T. Fukuda, H. Nakayama, K. Umezawa, “Surface structural analysis of Cu/Ni(110)”, Phys. Rev. B 78 (2008) 195422.
10. T. Fukuda, K. Iwamoto, Y. Fujimoto, K. Umezawa, H. Nakayama, “Mixed layer formation of copper overlayers on Ni(110)”, Appl. Surf. Sci. vol.254 (2008) pp.7693-7696.
11. K. Umezawa, E. Narihiro, Y. Ohira, M. Yohimura, “TOF-ICISS and STM study on 3ML-Pd/Pt(111) surface structure: Does the lattice mismatch determine the epitaxial growth ?”, Nucl. Instrum. Meth. B, vol. 266 (2008) pp. 1903-1907.
12. K. Umezawa, “Low energy ion and atom scattering spectroscopy for surface structural analysis of single crystals and insulators”, Nucl. Instrum. Meth. B, vol. 266 (2008) pp. 1892-1896. (review article)
13. E. Narihiro, K. Umezawa, Y. Ohira, M. Yoshimura, “Scanning tunneling microscopy study of Pd adsorption on Pt(111)”, Jpn. J. Appl. Phys., vol. 46 (2007) pp. 5595-5597.
14. K. Umezawa, E. Narihiro, K. Oda, S. Nakanishi, W. M. Gibson, “Development of a low energy Ne atom scattering system for insulator surface structural analysis”, Mat. Res. Soc. vol. 908 (2006) OO05-16-1.
15. K. Umezawa, K. Ymauachi, S. Nakanishi, “Pd/Pt surface structural analysis by time-of-flight low energy ion scattering spectroscopy”, Mat. Res. Soc. vol. 908 (2006) OO05-19-1.
16. E. Narihiro, K. Oda, S. Okaura, K. Umezawa, S. Nakanishi, “Control systems of low energy atom scattering spectroscopy”, J. Vac. Soc. Jpn., vol. 49 (2006) pp. 273-276, in Japanese.
17. T. Okazawa, Y. Hoshino, T. Nishimura, K.Umezawa, S. Nakanishi, Y. Kido, “Dynamic response of target electrons upon low and medium energy ion impact”, Nucl. Instrum. Meth. B, vol. 230 (2005) pp. 31-35.
18. K. Umezawa, T. Ito, S. Nakanishi, W. M. Gibson, “Metal epitaxy depending on the growth temperature during deposition”, Appl. Surf. Sci., vol. 219 (2003) pp. 102-106.
19. K. Umezawa, T. Tatsuda, S. Nakanishi, K. Ojima, M. Yoshimura, K. Ueda, W. M. Gibson, “Layer-by-layer surfactant induced growth of Ag on Cu(111): an imact collision ion scattering (ICISS) and scanning tunneling microscopy (STM)”, Surf. Sci., vol. 529 (2003) pp. 95-106.
20. K. Umezawa, H. Takaoka, S. Hirayama, S. Nakanishi, W. M. Gibson, “A  Cu(111)(/3x/3)R30-Sb structures by impact collision ion scattering spectroscopy”, Current Appl. Phys., vol. 3 (2003) pp. 71-74.
21. S. Olsson, B. Hjorvarsson, E. B. Svedberg, K. Umezawa, “Interaction between hydrogen in Nb/W(110) superlattice”, Phys. Rev. B, vol. 66 (2002) 155433.
22. K. Umezawa. S. Nakanishi, W. M. Gibson, “Surface Structure and Metal Epitaxy: Ag/Cu(111)”, Mat. Res. Soc. Symp. vol. 648 (2001) P5.10.1-6.
23. K. Umezawa, S. Nakanishi, K. Kojima, M. Yoshimura, K. Ueda, W. M. Gibson, “Ag/Cu(111) surface structure and metal epitaxy by impact collision ion scattering spectroscopy and scanning tunneling microscopy”, Phys. Rev. B, vol. 63 (2001) 035402-1~10.
24. S. Nakanishi, K. Umezawa, M. Yoshimura, K. Ueda, “Method for nanostructuring of Ag atoms on Ni(111) surfaces”, Phys. Rev. B, vol. 62 (2000) 13136-13141.
25. K. Umezawa, S. Nakanishi, W. M. Gibson, “Surface structure and metal epitaxy: impact collision ion scattering spectroscopy studies on Au-Ni(111)”, Surf. Sci., vol. 426 (1999) pp. 225-234.
26. T. Ito, S. Nakanishi, K. Umezawa, S. Yamamoto, K. Narumi, H. Naramoto, “Effects of Pb deposition on precoverage Ag/Ni(111) surface”, TIARA annual report (JAERI Review 99-025) (1999) pp. 182-184.
27. K. Umezawa, S. Nakanishi, W. M. Gibson, “Growth modes depending on the growing temperature in heteroepitaxcy: Au/Ni(111)”, Phys. Rev. B, vol. 57 (1998) pp. 8842-8844.
28. T. Ito, K. Umezawa, S. Nakanishi, “Epitaxial-growth of Ag on Ni(111)”,Appl. Surf. Sci., vol. 132 (1998) pp. 497-500.
29. K. Umezawa, S. Nakanishi, T. Yumura, W. M. Gibson, M. Watanabe, Y. Kido, S. Yamamoto, Y. Aoki, H. Naramoto, “Surface structure analysis of Ni(111)-(/3x/3)R30-Pb" by impact- collision ion-scattering spectroscopy”, Phys. Rev. B, vol. 56 (1997) pp. 10585-10589.
30. K. Umezawa, S. Nakanishi, T. Yumura, S. Yamamoto, Y. Aoki, H. Naramoto, ”Surface alloying of immscible metals: Ni(111)-(√3×√3)R30o-Pb, TIARA annual report (JAERI-Review 97-015) (1997) pp. 164-166.
31. K. Umezawa, A. Takahashi, T. Yumura, S. Nakanishi, W. M. Gibson, “Initial stage of Pb adsorption on Ni(111) studied by LEED and ICISS”, Surf. Sci., vol. 365 (1996) pp. 118- 124.
32. K. Umezawa, T. Yumura, S. Nakanishi, W. M. Gibson, S. Yamamoto, Y. Aoki, H. Takeshita, and H. Naramoto, “Initial stage of the Pb adsorption on a Ni(111) studied by LEED and ICISS”, JAERI TIARA annual report (JAERI-Review 96-017), vol. 5 (1995) pp. 167-169.
33. T. Yumura, S. Nakanishi, K. Umezawa, “A study of surface structure: Li/Cu(110)”J. Vac. Soc. Jpn, vol. 38 (1995) pp. 971-977. in Japanese.
34. S. Nakanishi, T. Yumura, K. Umezawa, H. Tochihara, S. Mizuno, “Observation of coverage- dependent and temperature-dependent surface structure formed upon Li deposition on Cu(110)”, Phys. Rev. B, vol. 49 (1994) pp. 4850-4857.
35. S. Nakanishi, K. Kawamoto, K. Umezawa, “The initial stage of deposition of Au and Ag on Cu(001) studied by low energy ion scattering”, Surf. Sci. vol. 287 (1993) pp. 974-978.
36. S. Nakanishi, K. Kawamoto, N. Fukuoka, K. Umezawa, “Low energy ion scattering analysis of the surface compositional change of Au3Cu(001) induced by oxygen chemisorption”, Surf. Sci., vol. 261 (1992) pp. 342-348.
37. S. Nakanishi, N. Fukuoka, K. Kawamoto, K. Umezawa, Y. Teraoka, K. Nakahigashi, “Oxygen induced surface segregation of Cu on the Au0.7Cu0.3(110) surface”, Surf. Sci. Lett., vol. 247 (1991) pp. L215-220.

(8) X-rayoptics 
1. J. P. Kirkland, V. E. Kovanstev, C. M. Dozier, J. V. Gilfrich, W. M.
Gibson, Q. F. Xiao, K. Umezawa, “Wavelength dispersive X-ray fluorescense detector”, Rev. Sci. Instr., vol. 67 (1995) pp. 507-518.
2. 梅澤憲司、「ガラスキャピラリーを使ったX線収束、イオンビーム収束に関する研究：ロシア、米国、日本の歴史と現状について」,X線分析の進歩　第40集、2009年、pp. 45-50. アグネス技術センタ
3. 梅澤憲司、「ガラスキャピラリーを用いたイオンビーム収束，低速原子散乱法，X線収束の研究」, X線分析の進歩、第45集、2014年、アグネス技術センタ

<2-3> Others (non referees)
1. K. Umezawa, 「市民講座を主催して」, J. Surf. Sci. Jpn., vol. 25(2004) pp. 445-446.http://www.las.osakafu-u.ac.jp/umezawa/sample-page-2/