島田 亙 (Wataru SHIMADA) の研究業績リスト
新しい順(2024年3月現在)
【原著論文】
70. 島田 亙,
富山大学立山施設における結霜結露の原因とその対策,
雪氷, 85, p241-249, (2023).
69. Wataru Shimada, Motoi Oshima, Tsuyoshi Masaki, Hiroki Tsutsui, Kenshyu Momma, Kaori Takai,
Nucleation probability of Type-A tetra-n-butyl ammonium bromide semi-clathrate hydrate via the memory effect,
J. Crystal Growth, 583, 126560, (2022). DOI: 10.1016/j.jcrysgro.2022.126560
68. 島田 亙, 伊東慎司, 大島 基,
北海道で観察された鴎状結晶,
雪氷, 84, p3-11, (2022).
67. Wataru Shimada, Touma Yoshii, Atsushi Mochizuki, Kazuki Ohtake,
Three-dimensional aspects of sidebranch formation during the growth of snow crystals,
J. Crystal Growth, 548, 125846, (2020). DOI: 10.1016/j.jcrysgro.2020.125846
66. 島田 亙, 大西悠也, 朴木英治, 谷口貴章,
模擬積雪中におけるイオン成分移動の測定,
雪氷, 82, p3-17, (2020).
65. 島田 亙,
立山室堂平での積雪下部の状態変化 -温度測定とインターバル撮影-,
雪氷, 81, p151-161, (2019).
64. 川瀬宏明, 飯田 肇, 青木一真, 島田 亙, 野坂真也, 村田昭彦, 佐々木秀孝,
立山黒部アルペンルートにおける積雪観測と異なる水平解像度の非静力学地域気候モデル(NHRCM)を用いた積雪再現実験の比較,
地学雑誌, 128, p77-92, (2019). DOI: 10.5026/jgeography.128.77
63. Wataru Shimada and Kazuki Ohtake,
Asymmetrical three-dimansional morphology of growing snow crystal observed by Michelson interferometer,
Crystal Growth and Design, 18, p6426-6430, (2018). DOI: 10.1021/acs.cgd.8b01377
62. 島田 亙,
冬期山岳地での差圧計を用いた風向風速測定,
雪氷, 80, p319-325, (2018).
61. 島田 亙, 宮本翔平,
復氷現象での蒸気泡発生による貫入速度低下,
雪氷, 80, p227-234, (2018).
60. Wataru Shimada, Shohei Furukawa,
Rapid growth of ice crystal dendrite tips in dilute solution of trehalose,
J. Crystal Growth, 493, p25-29, (2018). DOI: 10.1016/j.jcrysgro.2018.04.024
59. Hiroaki Kawase, Akira Yamazaki, Hajime Iida, Kazuma Aoki, Wataru Shimada, Hidetaka Sasaki, Akihiro Murata and Masaya Nosaka,
Simulation of extermely small amounts of snow observed at High elevations over the Japanese Northern Alps in the 2015/26 winter,
Scientific Online Letters on the Atmosphere, p39-45, (2018). DOI:10.2151/sola.2018-007
58. 島田 亙・浅地 泉・朴木英治,
立山室堂平における雪えくぼの断面観察,
雪氷, 79, p573-579, (2017).
57. 島田 亙・茂木智行・山口 悟・小杉健二・阿部 修,
人工積雪を用いた雪えくぼ形成過程のその場観察実験,
雪氷, 79, p539-548, (2017).
56. Wataru Shimada and Kazuki Ohtake,
Three-dimensional morphology of natural snow crystals,
Crystal Growth and Design, 16, p5603-5605, (2016). DOI: 10.1021/acs.cgd.6b01263
55. 渡辺幸一・平井泰貴・中川佳祐・小川厚次・上原佳敏・朴木英治・島田 亙・青木一真・川田邦夫,
弥陀ヶ原火山の噴気活動による立山・室堂平の積雪化学への影響について,
雪氷, 78, p307-315, (2016).
54. Wataru Shimada, Tomoshige Sato and Hiroshi Tochihara,
Microscopic mechanism of the homoepitaxy on Si(111)7×7,
Physical Review, B94, 035402, (2016). DOI: 10.1103/PhysRevB.94.035402
53. 霜垣 永・島田 亙・望月重人・小杉健二,
模型斜面を用いた人工雪庇の成長実験,
雪氷, 76, p275-283, (2014).
52. Koichi Watanabe, Daiki Nishimoto, Sachie Ishita, Nagisa Eda, Yoshitoshi Uehara, Goichiro Takahashi, Noriyasu Kunori, Tomonori Kawakami, Wataru Shimada, Kazuma Aoki and Kunio Kawada,
Formaldehyde and hydrogen peroxide concentrations in the snow cover at Murododaira, Mt. Tateyama, Japan,
Bulletin of Glaciological Research, 30, p33-40, (2012).
51. 岩間真治・渡辺幸一・上原佳敏・西元大樹・小森静・齋藤由紀子・江田奈希紗・善光英希・島田 亙・青木一真・川田邦夫,
立山・室堂平の積雪中のイオン成分,ホルムアルデヒドおよび過酸化水素濃度,
雪氷, 73, p295-305, (2011).
50. Daisuke Tanaka, Yumi Tokuyama, Yohei Terada, Kohta Kunimochi, Chika Mizumaki, Syoko Tamura, Masayuki Wakabayashi, Kazuma Aoki, Wataru Shimada, Hitoshi Tanaka and Shogo Nakamura,
Bacterial communities in Asian dust-containing snow layers on Mt. Tateyama, Japan,
Bulletin of Glaciological Research, 29, p31-39, (2011).
49. Wataru Shimada,
Nucleation probability by memory effects of type-B tetra-n-butyl ammonium bromide semi-clathrate hydrate,
Proc. Int. Sympo. Phys. Chem. Ice, Hokkaido Univ. Press, p249-252, (2011).
48. Motoi Oshima, Shunsuke Hashimoto, Atsushi Tani, Takeshi Sugawara, Wataru Shimada and Kazunari Ohgaki,
In-situ Raman Observation on Aqueous Solution around Tetra-n-butyl Ammonium Bromide Semi-clathrate Hydrate,
Proc. Int. Sympo. Phys. Chem. Ice, Hokkaido Univ. Press, p141-146, (2011).
47. Yusuke Jin, Kaoru Matsumoto, Jiro Nagao and Wataru Shimada,
Phase Equilibrium Conditions for Krypton Clathrate Hydrate below the Freezing Point of Water,
J. Chemical Engineering Data, 56, p58-61, (2011).
46. Motoi Oshima, Wataru Shimada, Shunsuke Hashimoto, Atsushi Tani and Kazunori Ohgaki,
Memory effect on semi-clathrate hydrate formation: A case study of tetragonal tetra-n-butyl ammonium bromide hydrate,
Chemical Engineering Science, 65, p5442-5446, (2010).
45. 伊藤真人・島田 亙・長尾二郎・海老沼孝郎・成田英夫,
氷表面におけるキセノンクラスレートハイドレート結晶の成長形態と成長機構,
雪氷, 71, p353-360, (2009).
44. Yasuke Jin, Jiro Nagao, Junko Hayashi, Wataru Shimada, Takao Ebinuma and Hideo Narita,
Obaservation of Xe Hydrate Growth at Gas-Ice Interface by Microfocus X-ray Computed Tomography,
J. Phys. Chem. C, 112, p17253-17256, (2008).
43. Hiroyuki Oyama, Wataru Shimada, Takao Ebinuma, Yasushi Kamata, Satoshi Takeya, Tsutomu Uchida, Jiro Nagao and Hideo Narita,
Phase diagram, latent heat, and specific heat of TBAB semiclathrate hydrate crystals,
Fluid Phase Equilibria, 234, p131-135, (2005).
42. Yasushi Kamata, Yukiyasu Yamakoshi, Takao Ebinuma, Hiroyuki Oyama, Wataru Shimada, and Hideo Narita,
Hydrogen sulfide separation using tetra-n-butyl ammonium bromede semi-clathrate (TBAB) hydrate,
Energy and Fuels, 19, p1717-1722, (2005).
41. Wataru Shimada, Satoshi Takeya, Yasushi Kamata, Tsutomu Uchida, Jiro Nagao, Takao Ebinuma, and Hideo Narita,
Texture change of Ice on anomalously preserved methane clathrate hydrate,
J. Phys. Chem. B, 109, p5802-5807, (2005).
40. Satoshi Takeya, Tsutomu Uchida, Jiro Nagao, Ryo Ohmura, Wataru Shimada, Yasushi Kamata, Takao Ebinuma and Hideo Narita,
Particle size effect of CH4 hydrate for self-preservation,
Chemical Engineering Science, 60, p1383-1387, (2005).
39. Wataru Shimada, Motoo Shiro, Hidemasa Kondo, Satoshi Takeya, Hiroyuki Oyama,Takao Ebinuma and Hideo Narita,
Tetra-n-butyl ammonium bromide-water (1/38),
Acta Crystallographica, C61, po65-o66, (2005).
38. Wataru Shimada, Takao Ebinuma, Hiroyuki Oyama, Yasushi Kamata and Hideo Narita,
Free-growth forms and growth kinetics of tetra-n-butyl ammonium bromide semi-clathrate hydrate crystals,
J. Crystal Growth, 274, p246-250, (2005).
37. Ryo Ohmura, Wataru Shimada, Tsutomu Uchida, Yasuhiko H. Mori, Satoshi Takeya, Jiro Nagao, Hideki Minagawa, Takao Ebinuma and Hideo Narita,
Clathrate hydrate crystal growth in liquid water saturated with a hydrate-forming substance: variations in crystal morphology,
Philosophical Magazine, 84, p1-16, (2004).
36. Wataru Shimada and Takeo Hondoh,
In situ observation of the transformation from air bubbles to air clathrate hydrate crystals using a Mizuho ice core,
J. Crystal Growth, 256, p309-317, (2004).
35. Yasushi Kamata, Hiroyuki Oyama, Wataru Shimada, Takao Ebinuma, Satoshi Takeya, Tsutomu Uchida, Jiro Nagao and Hideo Narita,
Gas separation method using Tetra-n-butyl Ammonium Bromide semi-clathrate hydrate,
Japanese Journal of Applied Physics, 43, p362-365, (2004).
34. H. Oyama, T. Ebinuma, W. Shimada, S. Takeya, J. Nagao,T. Uchida, and H. Narita,
An experimental study of gas-hydrate formation by measuring viscosity and infrared spectra,
Canadian Journal of Physics, 81, p485-492, (2003).
33. Wataru Shimada and Hiroshi Tochihara,
Formation mechanism of the Si(111)7x7 reconstruction studied by scanning tunneling microscopy: Zipper-like restructuring in the sequential size changes of isolated single faulted-halves,
Surface Science, 526, p219-229, (2003).
32. Wataru Shimada, Takao Ebinuma, Hiroyuki Oyama, Yasushi Kamata, Satoshi Takeya, Tsutomu Uchida, Jiro Nagao and Hideo Narita,
Separation of gas molecule using tetra-n-butyl ammonium bromide semi-clathrate hydrate crystals,
Japanese Journal of Applied Physics, 42, pL129-L131, (2003).
31. 島田 亙・古川義純,
過冷却水から成長する氷結晶の形態形成機構,
雪氷, 64, p249-257, (2002).
30. Wataru Shimada, Hiroshi Tochihara,
In situ observation of initial homoepitaxial growth on the Si(111) 7x7 surface using scanning tunneling microscopy,
J. Crystal Growth, 237-239, p35-38, (2002).
29. Satoshi Takeya, Wataru Shimada, Yasushi Kamata, Takao Ebinuma, Tsutomu Uchida, Jiro Nagao, Hideo Narita,
In Situ X-ray Diffraction Measurements of the Self-Preservation Effect of CH4 Hydrate,
J. Phys. Chem. A, 105, p9756-9759, (2001).
28. Wataru Shimada, Tomohiko Kato, Hiroshi Tochihara,
Stabilization mechanism of Si(111) 7x7 domain growth: important role of shared corner-holes,
Surface Science, 491, pL663-L669, (2001).
27. 池田淳子・島田 亙・水野清義・栃原 浩,
Si(111)7x7表面上のアイランドとステップ終端部の走査トンネル顕微鏡観察,
表面科学, 22, p382-387, (2001).
26. Wataru Shimada, Hiroshi Tochihara, Tomoshige Sato and Masashi Iwatsuki,
STM observation of the formation of the smallest DAS domain on a quenched Si(111) surface,
Japanese Journal of Applied Physics, 39, p4408-4411, (2000).
25. Tomohiko Kato, Tomonori Takajo, Hiroshi Tochihara and Wataru Shimada,
Effect of step on structural phase transition of Si(111) 7x7 surface,
Japanese Journal of Applied Physics, 39, p4307-4310, (2000).
24. Wataru Shimada, Hiroshi Tochihara, Tomoshige Sato and Masashi Iwatsuki,
Observation of sudden structural-changes of the faulted-halves of the DAS structure on quenched Si(111) by STM,
Ultramicroscopy, 82, p103-109, (2000).
23. O. Watanabe, Y. Fujii, K. Kamiyama, H. Motoyama, T. Furukawa, M. Igarashi, M. Kohno, S. Kanamori, N. Kanamori, Y. Ageta, M. Nakawo, H. Tanaka, K. Satow, H. Shoji, K. Kawamura, S. Matoba, W. Shimada,
Basic analyses of Dome Fuji deep ice core. Part 1: Stable oxygen and hydrogen isotope ratios, major chemical compositions and dust concentration,
Polar Meteorol. Glaciol., 13, p83-89, (1999).
22. T. Kato, M. Uchibe, W. Shimada and H. Tochihara,
Model on size/type conversion of stacking-faulted half on quenched Si(111) surface,
Surface Review and Letters, 6, p1037-1043, (1999).
21. Wataru Shimada, Hiroshi Tochihara, Tomoshige Sato and Masashi Iwatsuki,
Domain growth of the DAS structure on a quenched Si(111) surface studied by STM,
Surface Review and Letters, 6, p995-1001, (1999).
20. T. Kato, M. Uchibe, H. Tochihara and W. Shimada,
Monte-Carlo simulation on growth patterns of DAS structure on quenched Si(111) surface,
Surface Science, 433-435, p745-750, (1999).
19. 島田 亙・栃原 浩,
Si(111)7x7 DAS構造形成過程のSTMによるその場観察,
表面科学, 20, p470-476, (1999).
18. Wataru Shimada, Hiroshi Tochihara, Tomoshige Sato and Masashi Iwatsuki,
Transformations of faulted halves of the DAS structure on quenched Si(111),
Surface Science, 423, pL291-L298, (1999).
17. T. Kato, Y. Saigo, M. Uchibe, H. Tochihara and W. Shimada,
Cell model of Si(111) 7x7 structure,
Surface Science, 416, p112-120, (1998).
16. Hiroshi Tochihara, Wataru Shimada, Hiroshi Yamamoto, Masahiro Taniguchi and Akihiko Yamagishi,
In situ scanning tunneling microscopy observation of the unreconstructed region in a quenched Si(111) surface: Dynamic size-conversion of the stacking-faulted half of the DAS structure,
J. Phys. Soc. Jpn, 67, p1513-1516, (1998).
15. Okitsugu Watanabe, Wataru Shimada, Hideki Narita, Atsushi Miyamoto, Kazushige Tayuki, Takeo Hondoh, Toshiyuki Kawamura, Shuji Fujita, Kunio Kawada and Kotaro Yokoyama,
Preliminary discussion of physical properties of the Dome Fuji shallow ice core in 1993, Antarctica,
Proc. NIPR Symp. Polar Meteorol. Glaciol., 11, p1-8, (1997).
14. 神山 孝吉・島田 亙・北岡 豪一・和泉 薫・江角 周一,
低バックグラウンド液体シンチレーション法による極域雪氷試料中のHTO濃度測定,
南極資料, 41, p631-641, (1997).
13. Wataru Shimada and Yoshinori Furukawa,
Pattern formation of ice crystals during free growth in supercooled water,
J. Phys. Chem. B, 101, p6171- 6173, (1997).
12. Tsuyoshi Hasegawa, Wataru Shimada, Hiroshi Tochihara and Shigeyuki Hosoki,
Dynamic observation of Si-island growth on a Si(111)-7x7 surface by HT-STM
J. Crystal Growth, 166, p314-318, (1996).
11. Tsutomu Uchida, Wataru Shimada, Takeo Hondoh, Shinji Mae, Ni. Barkov,
Refractive-index measurements of natural air-hydrate crystals in an antarctic ice-sheet,
Applied Optics, 34, p5746-5749, (1995).
10. 島田 亙・栃原 浩,
Si(111)-(7x7)上でのホモエピタキシャル成長中のRHEED強度振動の初期異常の原因,
表面科学, 15, p535-540, (1994).
9. Wataru Shimada and Hiroshi Tochihara,
Step-structure dependent step-flow: models for the homoepitaxial growth at the atomic steps on Si(111)7x7,
Surface Science, 311, p107-125, (1994).
8. Hiroshi Tochihara and Wataru Shimada,
The initial process of molecular beam epitaxial growth of Si on Si(111)7x7: a model for the destruction of the 7x7 reconstruction,
Surface Science, 269, p186-198, (1993).
7. 島田 亙・栃原 浩,
Si(111)7x7 上のステップ成長の微視的機構,
日本結晶成長学会誌,20, p236-242, (1993).
6. Yoshinori Furukawa and Wataru Shimada,
Three-dimensional pattern formation during growth of ice dendrites - its relation to universal law of dendritic growth,
J. Crystal Growth, 128, p234-239, (1993).
5. Yoshinori Furukawa and Wataru Shimada,
Experimental study of the pattern formation of ice crystal grown in supercooled water,
Pattern Formation in Complex Dissipative Systems. Ed. S. Kai, World Scientific, p14-22, (1992).
4. Yoshinori Furukawa and Wataru Shimada,
Pattern formation of ice dendrite grown in supercooled water,
Applied Electromagnetics in Materials and Computational Technology, Hokkaido Univ. Press, p111-114, (1992).
3. Hiroshi Tochihara, Wataru Shimada, M. Itoh, H. Tanaka, M. Udagawa and I. Sumita,
Structure and restructuring of the atomic steps on Si(111)7x7,
Physical Review, B45, p11332-11335, (1992).
2. Yoshinori Furukawa and Wataru Shimada,
Morphology of the ice crystal grown in supercooled water,
Proc. Int. Sympo. Phys. Chem. Ice, Hokkaido Univ. Press, p299-304, (1992).
1. Akira Yamashita, Hiroyuki Konishi, Wataru Shimada, Masayoshi Miyatake and Keisuke Tani,
Experimental studies on secondary ice particle production,
Proc., 10th Int. Conference Cloud and Precipitation, p188-189, (1988).