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Last update : Aug. 6th, 2018.

  1. Journal articles
  2. Review articles
  3. Books
  4. Technical reports
  5. Others

Journal articles

  1. 分子クラスターイオンビームを用いたSIMS分子イオン収率の増加
    盛谷浩右
    表面と真空 Vol. 61, 452-457 (2018).

  2. Method to measure the size distribution of massive cluster ion beams using two rotating electric fields
    Kousuke Moritani, Masashi Nojima, Masanao Hotta, Satoshi Kurumi, Kaoru Suzuki, Tatsuya Adachi, Takashi Kusanagi
    Nucl. Instr. Meth. Phys. Res. B, 432, 1-4 (2018).

  3. 解離性イオン散乱を用いた材料表面の機械物性測定
    乾 徳夫, 持地広造, 盛谷浩右
    精密工学会誌, Vol.82, pp. 335-339 (2016).

  4. Development of a mass spectrometer using two rotating electric fields”
    Masashi Nojima, Yuki Anai, Masanao Hotta, Satoshi Kurumi, Kaoru Suzuki, Tatsuya Adachi, Takashi Kusanagi and Kosuke Moritani
    Journal of Vacuum Science and Technology B, 34, 03H132 (2016).

  5. Development of Mass Spectrometer Using Two Rotating Electric Fields for Separation of High-Mass Ions”
    Yuki Anai, Masashi Nojima, Masanao Hotta, Satoshi Kurumi, Kaoru Suzuki, Tatsuya Adachi, Takashi Kusanagi and Kosuke Moritani,
    e-J. Surf. Sci. Nanotech. Vol. 14 (2016) p. 161-164.

  6. A Nondestructive Method for Probing Mechanical Properties of a Thin Film Using Impacts with Nanoclusters
    Norio Inui, Kozo, Mochiji, and Kousuke Moritani,
    International Journal of Applied Mechanics, 08, 1650041 (2016).

  7. Weighing a single Brownian particle in a droplet
    Junya Tamura, Masaaki Hasegawa, Kosuke Goto, Kozo Mochiji, Kousuke Moritani, Norio Inui
    Journal of the Physical Society of Japan 84, 084001 (2015).

  8. Corrigendum to “Coexistence of passive and active oxidation for O2/Si(001) system observed by SiO mass spectrometry and synchrotron radiation photoemission spectroscopy” [Appl. Surf. Sci. 216 (2003) 8–14]
    Yuden Teraoka, Kousuke Moritani, Akitaka Yoshigoe
    Appl. Surf. Sci. Vol. 343, 213-213, (2015).

  9. Argon Cluster Ions Cleaning and Probing a Graphene Layer on Copper
    Kozo Mochiji, Norio Inui, Ryousuke Asa, and Kousuke Moritani
    e-J. Surf. Sci. Nanotech., Vol. 13, 167-173, (2015).

  10. Erratum: “SiO Mass Spectrometry and Si-2p Photoemission Spectroscopy for the Study of Oxidation Reaction Dynamics of Si(001) Surface by Supersonic O2 Molecular Beams under 1000 K” [Jpn. J. Appl. Phys. 42, 4671 (2003)]
    Yuden Teraoka, Akitaka Yoshigoe, and Kousuke Moritani
    Jpn. J. Appl. Phys., Vol. 54, 039202 (2015).

  11. Mass spectrometric analysis of the dissociation of argon cluster ions in collision with several kinds of metal
    Kozo Mochiji, Naoki Se, Norio Inui and Kousuke Moritani
    Rapid Commun. Mass Spectrom. Vol. 28, 2141–2146, 2014

  12. TOF-SIMS study of polyester/melamine resin with Ar gas cluster ion beam
    S. Nishinomiya, K. Toshin, S. Hayashi, K. Iuchi, N. Se, K. Moritani and K. Mochiji
    Surf. Interface Anal. Vol. 46, 100–104, 2014

  13. Structural and dynamical properties of the junction between a single carbon nanotube and a graphene nanoribbon
    Masatoshi Yoshimoto, Kozo Mochiji, Kousuke Moritani, and Norio Inui
    Jpn. J. Appl. Phys. Vol. 53, 045103 (2014)

  14. Roughness Dependence of the Casimir Force between Fractal Surfaces
    Kosuke Goto, Kozo Mochiji, Kousuke Moritani, and Norio Inui
    e-J. Surf. Sci. Nanotech. Vol. 12, pp. 313-321, (2014)

  15. Surface Sensitive Analysis of Organic Compound using Size-selected Ar Gas Cluster SIMS
    Kousuke Moritani, Kozo Mochiji, Norio Inui, Noriaki Toyoda, Isao Yamada
    J. Vac. Soc. Jpn Vol. 57, 173-178, (2014). (in Japanese)

  16. Secondary ion emission from insulin film bombarded with methane and noble gas cluster ion beams
    Kousuke Moritani, Masanori Kanai, Kosuke Goto, Issei Ihara, Norio Inui, Kozo Mochiji
    Nucl. Instr. Meth. Phys. Res. B, Vol. 415, 300-303, 2013

  17. Highly sensitive analysis for surface contaminants by Ar gas cluster SIMS
    Kousuke Moritani, Motohiro Tanaka, Norio Inui, Kozo Mochiji
    Surf. Interface Anal., Vol. 45, 143-146, 2013

  18. Stable Position of a Micro Torsion Balance under the Casimir Force
    Norio Inui, Tsuyoshi Kushiro, Kozo Mochiji, and Kousuke Moritani
    e-J. Surf. Sci. Nanotech. Vol. 11, 60-64, 2013

  19. Why the Great Buddha of Nara in Japan looks so younger?
    R. Lobo, M. Okada, K. Moritani, T. Kasai
    Rend. Fis. Acc. Lincei, Volume 23, Number 2, Pages 187-194, 2012.
    ---Introductory articles of this work.---
    [ mainichi shinbun ],[ nikkei shinbun ],
    [ Portuguese newpaper offered by Prof. Rui Lobo. ]

  20. Heat Treatment of Graphite Defects Produced by Irradiation with Ar Cluster Ions
    M. Tsukuda, Y. Yokodera, K. Moritani, N. Inui, K. Mochiji
    e-Journal of Surface Science and Nanotechnology, Vol. 10, 88-91, 2012.

  21. ガラスキャピラリーを用いたアルゴンクラスターイオンビームの集束
    正司和大, 井内健輔, 出水元基, 盛谷浩右, 乾徳夫, 持地広造
    真空, Vol. 55, No.3, 118-120, 2012.

  22. Trapping of a Conducting Nanoparticle by Long-Range Surface Forces
    N. Inui, K. Mochiji and K. Moritani
    e-Journal of Surface Science and Nanotechnology, Vol. 9, 301-305, 2011.

  23. Soft-sputtering of insulin films in argon-cluster secondary ion mass spectrometry
    Shohei Oshima, Ippei Kashihara, Kousuke Moritani, Norio Inui, Kozo Mochiji
    Rapid Commun. Mass Spectrom., Volume 25, Issue 8, pages 1070-1074, 30 April 2011.

  24. New Design and Development of Size-Selected Gas Cluster SIMS
    Kousuke Moritani, Michihiro Hashinokuchi, Gen Mukai, Kozo Mochiji
    Electrical Engineering in Japan (English translation of Denki Gakkai Ronbunshi), Volume 176, Issue 3, pages 52-58, August 2011.

  25. Evaluation of immobilized-polypeptides with different C-terminal residues using argon gas-cluster secondary ion mass spectrometry (GC-SIMS)
    S. Aoyagi, K. Moritani, K. Mochiji
    Surf. Interface Anal.,Volume 43, Issue 1-2, pages 344-349, January - February 2011

  26. Energy dependent fragmentation of polystyrene molecule using size-selected Ar gas cluster ion beam projectile
    K. Moritani, G. Mukai, M. Hashinokuchi, K. Mochiji
    Surf. Interface Anal.,Volume 43, Issue 1-2, pages 241-244, January - February 2011.

  27. Fragment distribution of polystyrene by QMD method using the model hexamer
    K. Hayashi, K. Moritani, N. Inui, K. Mochiji, K. Endo
    J. Surf. Anal., 17, 15-27, (2010).

  28. Enhanced surface sensitivity in secondary ion mass spectrometric analysis of organic thin films using size-selected Ar gas-cluster ion projectiles
    M. Tanaka, K. Moritani,* T. Hirota, N. Toyoda, I. Yamada, N. Inui, K. Mochiji
    Rapid Commun. Mass Spectrom., 24, 1405-1410, (2010).

  29. Molecular dynamics simulations of nanopore processing in a graphene sheet by using gas cluster ion beam
    N. Inui, K. Mochiji, K. Moritani, N. Nakashima
    Appl. Phys. A: Materials Science and Processing, 98, 787-794, (2010).

  30. Kinetics of oxygen adsorption and initial oxidation on Cu(110) by hyperthermal oxygen molecular beams,
    K. Moritani, M. Okada, Y. Teraoka, A. Yoshigoe, T. Kasai
    J. Phys. Chem. A, 113, 15217-15222, (2009).

  31. Site-specific fragmentation of polystyrene using Ar gas cluster ion beam,
    K. Moritani, G. Mukai, M. Hashinokuchi, K. Mochiji
    Appl. Phys. Express 2, 046001, (2009).

  32. Matrix-free detection of intact ions from proteins in argon-cluster SIMS,
    K. Mochiji, M. Hashinokuchi, K. Moritani, and N. Toyoda,
    Rapid Commun. Mass Spectrom., 23, 648-652, (2009).

  33. サイズ選別型ガスクラスターSIMSの開発
    盛谷浩右、橋之口道宏、向井元、持地広造
    電気学会論文誌C, 129, 288-293 (2009).

  34. Actuation of a suspended nano-graphene sheet by impact with an argon cluster
    N. Inui, K. Mochiji and K. Moritani
    Nanotechnology, 19, 505501, (2008).

  35. Initial sticking probability of O2 on Cu(410)
    L. Vattuone, L. Savio, M. Okada, K. Moritani, M. Rocca
    Surf. Sci., 602, 2689-2692, (2008).

  36. Stereodynamics in Dissociative Adsorption of NO on Si(111)
    M. Hashinokuchi, M. Okada, H. Ito, T. Kasai, K. Moritani and Y. Teraoka,
    Phys. Rev. Lett., 100, 256104, (2008).

  37. Preferential sputtering of DNA molecules on a graphite surface by Ar cluster ion beam,
    K. Moritani, S. Houzumi, K. Takeshima, N. Toyoda, K. Mochiji,
    J. Phys. Chem. C, 112, 11357-11362 (2008).

  38. Extremely low-energy projectiles for SIMS using size-selected gas cluster ions,
    K. Moritani, M. Hashinokuchi, J. Nakagawa, T. Kashiwagi, N. Toyoda, and K. Mochiji
    Appl. Surf. Sci., 255, 948-950, (2008).

  39. Secondary ion mass spectrometry using size-selected gas cluster ion beam,
    M. Hashinokuchi, K. Moritani, J. Nakagawa, T. Kashiwagi, N. Toyoda, K. Mochiji,
    J. Surf. Anal., vol.14, No4, pp.387-390, (2008).

  40. Reconstruction of Cu(111) induced by a hyperthermal oxygen molecular beam,
    K. Moritani, M. Okada, Y. Teraoka, A. Yoshigoe, and T. Kasai,
    J. Phys. Chem. C, 112, 8662-8667 (2008).

  41. Dissociative Adsorption of Nitric Oxide on Si(111)-(7×7) Surface,
    M. Hashinokuchi, M. Okada, H. Ito, T. Kasai, K. Moritani, and Y. Teraoka,
    Jpn. J. Appl. Phys. Vol. 47, No. 3, 1672-1676 (2008).

  42. New Oriented-Molecular-Beam Machine for Surface Stereochemistry with X-Ray Photo-Emission Spectroscopy
    M Okada, M. Hashinokuchi, K. Moritani, T. Kasai, and Y. Teraoka,
    Jpn. J. Appl. Phys Vol. 47, No. 5, 3686-3691 (2008).

  43. Mechanisms of concurrent SiO desorption with oxide layer formation at Si(001) surface
    Y. Teraoka, A. Yoshigoe, K. Moritani
    Electrical Engineering in Japan (English translation of Denki Gakkai Ronbunshi), Volume 164, Issue 3, 60-68 (2008).

  44. Effects of Vibrational and Rotational Excitations on the Dissociative Adsorption of O2 on Cu Surfaces
    K. Moritani, M. Tsuda, Y. Teraoka, M. Okada, A. Yoshigoe, T. Fukuyama, T. Kasai, and H. Kasai.
    J. Phys, Chem. C, 111, 9961-9967, (2007).

  45. Pressure and temperature dependence of cuprous oxide nucleation on Cu(410)
    M. Okada, L. Vattuone, K. Moritani, L. Savio, Y. Teraoka, T. Kasai and M. Rocca,
    J. Phys. Condens.: Matter, 19, 305022 (2007).

  46. Unravelling the Role of Steps in Cu2O Formation on Cu(410) using a hyperthermal O2 Molecular Beam,
    M. Okada, L. Vattuone, K. Moritani, A. Gerbi, L. Savio, A. Yoshigoe, Y. Teraoka, M. Rocca, T. Kasai,
    J. Phys, Chem. C, 111, 17340-17345 (2007).

  47. X-ray photoemission study of the temperature-dependent CuO formation on Cu(410) using an energetic O2 molecular beam
    M. Okada, L. Vattuone, K. Moritani, L. Savio, Y. Teraoka, T. Kasai, M. Rocca,
    Phys. Rev. B 75, 233413 (2007).

  48. High-resolution Electron Energy Loss Spectroscopy Study of O-Cu(410)
    L. Vattuone, L. Savio, A. Gerbi, M. Okada, K. Moritani and M. Rocca.
    J. Phys. Chem. B 111, 1679-1683 (2007).

  49. 超音速酸素分子ビームによる並進運動エネルギー誘起Ti(0001)表面酸化反応
    小川修一、高桑雄二、石塚眞治、吉越章隆、寺岡有殿、盛谷浩右、水野善之
    電気学会論文誌C, 127(2), 140-145 (2007).

  50. Si(001)表面における酸化膜形成とSiO脱離の共存機構
    寺岡有殿、吉越章隆、盛谷浩右
    電気学会論文誌C, 127(2), 133-139 (2007)

  51. 室温における酸素分子のSi(111)-7x7 表面での初期吸着ダイナミクス
    吉越章隆、成廣英介、盛谷浩右、寺岡有殿
    表面科学, 27(8), 449-454 (2006)

  52. Protective layer formation during oxidation of Cu3Au(100) using hyperthermal O2 molecular beam,
    M. Okada, M. Hahsinokuchi, T. Fukuyama, H. Mizutani, T. Kasai, K. Moritani and Y. Teraoka,
    Appl. Phys. Lett., 89, 201912 (2006).

  53. Comparative study of oxidation on Cu and Cu3Au surfaces with a hyperthermal O2 molecular beam,
    M. Okada, K. Moritani, T. Fukuyama, H. Mizutani, Y. Teraoka, A. Yoshigoe, and T. Kasai,
    Surf. Sci., 600,4228-4232 (2006).

  54. The azimuthal dependent oxidation process on Cu(110) by energetic oxygen molecules,
    K. Moritani, M. Okada, T. Fukuyama, Y. Teraoka, A. Yoshigoe, and T. Kasai,
    Eur. Phys. J. D, 38, 111-115 (2006).

  55. New development of an ultra-high-vacuum oriented-molecular-beam machine and its application to chemical reactions on silicon surface,
    M. Okada, K. Moritani, S. Goto and T. Kasai,
    Jpn. J. Appl. Phys., 44, 8580-8589 (2005).

  56. Trapping hydrogen with a bimetallic interface
    M. Okada, K. Moritani, T. Kasai, W. A. Dino, H. Kasai, S. Ogura, M. Wilde and K. Fukutani,
    Phys. Rev. B, 71, 33408 1-4 (2005).

  57. Tuning of dissociative-adsorption processes on Cu{100} by controlling the kinetic energy of the impinging O2 molecule,
    M. Okada, K. Moritani, A. Yoshigoe, Y. Teraoka, H. Nakanishi, W. A. Dino, H. Kasai and T. Kasai,
    Chem. Phys., 301, 315-320 (2004).

  58. Photoemission study of the translational energy induced oxidation processes on Cu(111),
    K. Moritani, M. Okada, S. Sato, S. Goto, T. Kasai, A. Yoshigoe and Y. Teraoka,
    J. Vac. Sci. Technol. A, 22, 1625-1630 (2004).

  59. Translational energy induced reconstruction and absorption in the oxidation processes of Cu {111},
    K. Moritani, M. Okada, S. Sato, S. Goto, T. Kasai, A. Yoshigoe and Y. Teraoka
    Thin Solid Films, 464-465, 48-51 (2004).

  60. Ti(0001)表面酸化における極薄酸化膜成長と酸化状態
    高桑雄二、石塚眞治、吉越章隆、寺岡有殿、盛谷浩右、小川修一、水野善之、頓田英機、本間禎一
    真空, 47, 457-461 (2004).

  61. Real time observation of initial thermal oxidation using O2 gas on Si(001) surface by means of synchrotron radiation Si-2p photoemission spectroscopy
    A. Yoshigoe, K. Moritani and Y. Teraoka
    Appl. Surf. Sci., 216, 388-394 (2003).

  62. Coexistence of passive and active oxidation for O2/Si(001) system observed by SiO mass spectrometry and synchrotron radiation photoemission spectroscopy
    Y. Teraoka, K. Moritani and A. Yoshigoe
    Appl. Surf. Sci., 216, 8-14 (2003).

  63. Real-time observation of initial stage on Si(001) oxidation studied by O-1s photoemission spectroscopy using synchrotron radiation
    A. Yoshigoe, K. Moritani and Y. Teraoka
    Jpn. J. Appl. Phys., 42, 4676-4679 (2003).

  64. SiO mass spectrometry and Si-2p photoemission spectroscopy for the study of oxidation reaction dynamics of Si(001) surface by supersonic O2 molecular beams under 1000 K
    Y. Teraoka, A. Yoshigoe and K. Moritani
    Jpn J. Appl. Phys., 42, 4671-4675 (2003).

  65. Real time monitoring of initial thermal oxidation on Si(001) surface by synchrotron radiation photoemission spectroscopy
    A. Yoshigoe, K. Moritani and Y. Teraoka
    Jpn. J. Appl. Phys., 42, 3976-3982 (2003).

  66. 放射光リアルタイム光電子分光を用いた酸素ガスによるSi(001)表面の熱酸化初期過程のその場観察
    吉越章隆、盛谷浩右、寺岡有殿
    真空, 46, 424-428 (2003).

  67. Actively-controlled oxidation of Cu{100} with hyperthermal O2 molecular beam,
    M. Okada, K. Moritani, S. Goto, T. Kasai, A. Yoshigoe and Y. Tearaoka,
    J. Chem. Phys., 119, 6994-6997 (2003).

  68. 超高真空対応配向分子線ビームラインの開発,
    盛谷浩右、岡田美智雄、後藤征士朗、笠井俊夫,
    真空, 46, 692-697 (2003).

  69. Dissociative adsorption of hydrogen on thin Au films grown on Ir{111},
    M. Okada, M. Nakamura, K. Moritani and T. Kasai,
    Surf. Sci., 523, 218-230 (2003).

  70. Hydrogen-exchange reactions via hot hydrogen atoms produced in the dissociation process of molecular hydrogen on Ir{111},
    K. Moritani, M.Okada, M. Nakamura, T. Kasai and Y. Murata,
    J. Chem. Phys., 115, 9947-9959 (2001).

  71. Hot atom mechanism in hydrogen exchange reaction on Ir{100} surface,
    M. Okada, K. Moritani, M. Nakamura, T. Kasai and Y. Murata,
    Chem. Phys. Lett., 323, 586-593 (2000).

  72. Hydrogen adsorption and reaction on the Ir{100}-(1×5) surface,
    K. Moritani, M.Okada, T. Kasai and Y.Murata,
    Surf. Sci., 445, 315-326 (2000).




Review articles

  1. 多変量解析を応用した高分子試料のToF-SIMSスペクトルの解析
    Application of Multivariative Statistics to Analyze ToF-SIMS Spectra of Plymer Sample
    盛谷浩右
    K. Moritani
    システム/制御/情報, 第58巻 第5号 (2014) 193-198
    System, Control and Information, Vol. 58, No. 5, 193-198 (2014) May.

  2. 高輝度・高分解能放射光で見えてきた表面化学反応ダイナミクス〜超音速O2分子線で誘起される表面酸化反応のその場光電子分光〜
    寺岡有殿、吉越章隆、盛谷浩右、高桑雄二、小川修一、石塚眞治、岡田美智雄、福山哲也、笠井俊夫
    放射光, 18, (2005) 298-309

  3. 超音速酸素分子線を用いたSi(001)表面の高温酸化過程における化学反応ダイナミクス,
    寺岡有殿、吉越章隆、盛谷浩右,
    真空, 47, (2004) 301-307


Books

  1. Fabrication of Cu Oxides on Single Crystal Cu Surfaces using Hyperthermal O2 Molecular Beams ( in Metal Oxide Nanostructures and Their Applications)
    M. Okada, K. Moritani, L. Vattuone, L. Savio, Y. Teraoka, T. Kasai, M. Rocca
    American Scientific Publishers (2009)


Technical reports

  1. 水クラスターイオンビーム照射による有機分子の脱離イオン化
    田中厚嗣, 盛谷浩右, 乾 徳夫, 住友弘二
    電気学会 光・量子デバイス研究会,OQD-18-030, pp.25~38 (2018).

  2. 【解説】Ar-GCIBによる極浅スパッタ効果 〜二次イオン質量分析への応用と有機物の選択的スパッタリング〜
    盛谷 浩右
    クリーンテクノロジー Vol.24, No.8, pp.53-57 (2014).

  3. ガスクラスターSIMSによるタンパク質分子の計測
    大嶋 渉平、盛谷 浩右、持地 広造、橋之口 道宏
    電気学会 光・量子デバイス研究会資料 OQD-09-54, p.55-60 (May.2009).

  4. Detection of protein ions by gas-cluster SIMS
    K. Moritani, M. Hashinokuchi N. Toyoda, K. Mochiji
    9th Workshop on Cluster Ion Beam Technology (Tokyo, Japan), p.49-55 (2009).

  5. Study of crater formation by size-selected cluster ion beam
    S. Houzumi, K. Moritani, N. Toyoda, K. Mochiji, I. Yamada
    7th Workshop on Cluster Ion Beam Technology (Tokyo, Japan), p.130-133 (2006).

  6. Growth of oxygen adlayer on Ru(0001) with high energy supersonic oxygen molecular beam
    S. Takahashi, Y. Fujimoto, Y. Teraoka, A. Yoshigoe, K. Moritani, T. Aruga,
    KEK Proceedings, 2006-3 (2006) 80-82

  7. Rotational States of CH3CN Selected Using Hexapole Electric Field
    M. Hashinokuchi, M. Okada, T. Kasai, K. Moritani, Y. Teraoka,
    JAEA-Research 2005 -002 (2005).

  8. Ti(0001)表面における超音速酸素分子ビーム誘起初期酸化反応,
    小川修一、高桑雄二、石塚眞治、水野善之、頓田英機、本間禎一、寺岡有殿、吉越章隆、盛谷浩右、鉢上隼介,
    JAERI-Tech 2004-046 (2004).

  9. Control of O2 adsorption and SiO desorption by incident energy of O2 molecules in the O2/Si(001) surface reaction system,
    Y. Teraoka, A. Yoshigoe, K. Moritani,
    Atomic Collision Research in Japan, No.29, 68-70 (2003/00)


Others

  1. 談話室 日本真空学会関西支部&日本表面科学会関西支部合同セミナー2017
    盛谷浩右
    表面科学 Vol. 38, p.538, (2017).

  2. 日本真空学会関西支部&日本表面科学会関西支部合同セミナーの歴史とこれから
    盛谷浩右
    日本表面科学会関西支部創立25周年記念誌, p.37-38 (2017).


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