慶應義塾大学理工学部

〒223-8522　神奈川県横浜市港北区日吉3-14-1
TEL 045-563-1141 / FAX 045-566-1672

佐々田業績リスト

1. K. Iwakuni, S. Okubo, and H. Sasada, "A novel frequency control scheme for comb-referenced sensitive difference-frequency-generation spectroscopy," Optics Express, 21(12), 14832-14840 (2013).
2. M. Abe, K. Iwakuni, S. Okubo, and H. Sasada, "Accurate transition frequency list of the ν₃-band of methane from sub-Doppler resolution comb-referenced spectroscopy," Journal of the Optical Society of America, B30(4), 1027-1035 (2013).
3. M. Sato and H. Sasada, "Measurements of transverse lateral and longitudinal angular shifts of high-azimuthal-mode Laguerre?Gaussian beams reflected at a dielectric interface near critical incidence," Journal of Optics, 15, 014018 (2013).
4. K. Tsuji, H. Teshima, and H. Sasada, "Spectroscopic isotope ratio measurement of doubly-substituted methane," Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 98, 43-46 (2012).
5. S. Okubo, H. Nakayama, K. Iwakuni, H. Inaba, and H. Sasada, "Absolute frequency list of the ν₃-band transitions of methane at a relative uncertainty level of 10^-11," Optics Express, 19(24), 23878 - 23888 (2011).
6. S. Okubo, H. Nakayama, and H. Sasada, "Hyperfine-resolved 3.4-μm spectroscopy of CH₃I with a widely tunable difference frequency generation source and a cavity-enhanced cell: A case study of a local Coriolis interaction between the v₁ = 1 and (v₂,v^l₆) = (1,2²) states," Physical Review A, 83(1), 012505 (2011).
7. K. Tsuji, H. Teshima, and H. Sasada, "An efficient and compact difference-frequency-generation spectrometer and its application to ¹²CH₃D/¹²CH₄ isotope ratio measurements," Sensors, 10, 6612-6622 (2010).
8. Keisuke Takahata, Takumi Kobayashi, H. Sasada, Yoshiaki Nakajima, Hajime Inaba, and Feng-Lei Hong, "Absolute frequency measurement of sub-Doppler molecular lines using a 3.4-μm difference-frequency-generation spectrometer and a fiber-based frequency comb," Physical Review A, 80, 032518 (2009).
9. M. Abe, K. Takahata, and H. Sasada, "Sub-Doppler resolution 3.4 μm spectrometer with an efficient difference-frequency-generation source," Optics Letters, 34, 1744-1746 (2009).
10. H. Okuda and H. Sasada, "Significant deformations and propagation variations of Laguerre-Gaussian beams reflected and transmitted at a dielectric interface," Journal of the Optical Society of America A, 25, 881-890 (2008).
11. K. Anzai, H. Sasada, and N.Yoshida, "Best pair of 3.3-μm-band transitions for isotopomer abundance ratio measurements of ¹³CH₄ to ¹²CH₄" Japanese Journal of Applied Physics, 46(4A), 1717-1721 (2007).
12. H. Okuda and H. Sasada, "Huge transverse deformation in nonspecular reflection of a light beam possessing orbital angular momentum near critical incidence" Optics Express, 14(18), 8393-8402 (2006).
13. K. Anzai, X. Gao, H. Sasada, and N. Yoshida,"Narrow Lamb dip of 3.4 μm band transition of methane with difference frequency generation and enhncement cavity" Japanese Journal of Applied Physics, 45(4A), 2771-2775 (2006).
14. M. Okamoto and H. Sasada, "Generation of optical vortices by converting elegant Hermite Gaussian beams" Japanese Journal of Applied Physics, 44(4A), 1743-1747 (2005).
15. Gao Xiaoming, H. Sasada, K. Anzai, and N. Yoshida,"Frequency-domain measurement of cavity ring-down spectroscopy" Japanese Journal of Applied Physics, 44(3), 1452-1456 (2005).
16. H. Sasada and M. Okamoto, "Transverse-mode beam splitter of a light beam and its application to quantum cryptography" Physical Review A, 68(7), 012323-1-7 (2003).
17. M. Haraguchi, Y. Shibayama, K. Kikuchi, M. Okamoto, H. Sasada, and K. Shiraham, "Production of cold metastable helium atoms in a cryostat" Physica B, 329-333, 34-35 (2003).
18. Y. Yoshikawa and H. Sasada, "Versatile generation of optical vortices based on paraxial mode expansion" Journal of the Optical Society of America A, 19(10), 2127-2133 (2002).
19. C. Ishibashi, R. Saneto and H. Sasada, "Infrared radio-frequency double-resonance spectroscopy of molecular vibrational-overtone bands using a Fabry-Perot cavity-absorption cell," Journal of the Optical Society of America B, 18, 1019-1030 (2001).
20. Y. Yoshikawa, K. Satake, T. Mitsui, and H. Sasada, "Can a linearly polarized light beam polarize atomic spin?" Optics Communications, 190, 173-178 (2001).
21. C. Ishibashi and H. Sasada, "Near-infrared laser spectrometer with sub-Doppler resolution, high sensitivity, and wide tunability: A case study in the 1.65-μm region of CH₃I spectrum," Journal of Molecular Spectroscopy, 200, 147-149 (2000).
22. C. Ishibashi, M. Kourogi, K. Imai, B. Widiyatmoko, A. Onae, and H. Sasada, "Absolute frequency measurement of the saturated absorption lines of methane in the 1.66-μmm region," Optics Communications, 161, 223-226 (1999).
23. C. Ishibashi and H. Sasada, "Highly sensitive cavity-enhanced sub-Doppler spectroscopy of a molecular overtone band with a 1.66-μm tunable diode laser," Japanese Journal of Applied Physics, 38(2A), 920-922 (1999).
24. Y. Shimizu and H. Sasada, "Mechanical force in laser cooling and trapping," American Journal of Physics, 66(11), 960-966 (1998).
25. Y. Torii, N. Shiokawa, T. Hirano, T. Kuga, Y. Shimizu, and H. Sasada, "Pulsed polarization gradient cooling in an optical dipole trap with a Laguerre-Gaussian laser beam," The European Physical Journal, D 1, 239-242 (1998).
26. K. Suzumura, C. Ishibashi, and H. Sasada, "Precise frequency-difference measurement between the 1.66-μm transitions of methane," Optics Letters, 22(17), 1356-1358 (1997).
27. T. Kuga, Y. Torii, N. Shiokawa, T. Hirano, Y. Shimizu, and H. Sasada, "Novel optical trap of atoms with a doughnut beam," Physical Review Letters, 78(25), 4713-4716 (1997).
28. C. Ishibashi and H. Sasada, "Permanent dipole moments of methane-type molecule: calculation of the ΔJ = 0 matrix elments in the l = 1 vibrational state," Journal of Molecular Spectroscopy, 183, 285-294 (1997).
29. H. Sasada, K. Suzumura, and C. Ishibashi, "Coriolis-dependent Stark effect of the 2ν₃ band of methane observed by saturated absorption spectroscopy," Journal of Chemical Physics, 105(20), 9027-9034(1996).
30. K. Suzumura and H. Sasada, "Observation of saturation spectrum of the 2ν₃ band of methane," Japanese Journal of Applied Physics, 34(12A), L1620-L1621 (1995).
31. Y. Awaji, K. Nakagawa, M. de Labachelerie, M. Ohtsu, and H. Sasada, "Optical frequency measurement of the H¹²C¹⁴N Lamb-dip-stabilized 1.5-μm diode laser," Optics Letter, 20(19), 2024-2026 (1995).
32. H. Sasada and Y. Kuba, "Vibrationally induced dipole moment of the v₃=2 state of methane," Journal of Molecular Spectroscopy, 172, 573-575 (1995).
33. T. Tsukamoto and H. Sasada, "Extended assignments of the 3ν₁+ν₃ band of methane," Journal of Chemical Physics, 102(13), 5126-5140 (1995).
34. T. Katayama, F. Matsushimas, and H. Sasada, "Frequency measurement of the v=6-0 band transition of HI," Journal of Molecular Spectroscopy , 167, 236-237 (1994).
35. H. Sasada, "Tittanium:sapphire laser spectroscopy of the 3-0 band of HF," Journal of Molecular Spectroscopy, 165, 588-589 (1994).
36. H. Sasada, T. Tsukamoto, Y. Kuba, N. Tanaka, and K. Uehara, "Ti:sapphire laser spectroscopy for Doppler-limited molecular spectroscopy," Journal of Optical Society of America, B11(1), 191-197 (1994).
37. M. de Labachelerie, H. Sasada, and G. Passedat, "Mode-hop suppression of Littrow grating-tuned lasers: erratum," Applied Optics, 33(18), 3817-3819 (1994).
38. T. Yoshida and H. Sasada, "Near-infrared spectroscopy with a wavemeter," Journal of Molecular Spectroscopy, 153, 208-210 (1992).
39. H. Sasada, Y. Endo, E. Hirota, R. L. Poynter, and J. S. Margolis, "Microwave and Fourier-transform infrared spectroscopy of the v₄=1 and v₂=2s states of NH₃," Journal of Molecular Spectrosocpy, 151, 33-53 (1992).
40. H. Sasada, "Wavenumber measurements of sub- Doppler spectral lines of Rb at 1.3 μm and 1.5 μm," IEEE Photonics Technology Letters, 4(11), 1307-1309 (1992).
41. H. Sasada and O. Kubota, "Frequency of Lamb-dip-stabilized 1.52 μm He-Ne lasers," Applied Physics, B55, 186-188 (1992).
42. H. Sasada, S. Takeuchi, M. Iritani, and K. Nakatani, "Semiconductor-laser heterodyne frequency measurements on 1.52-μm molecular transitions," Journal of Optical Society of America, B8(4), 713-718 (1991).
43. H. Sasada, T. Amano, C. Jarman, and P. F. Bernath, "A new triplet band system of C₃: the b³Π_g-a³Π_u transition," Jouranl of Chemical Physics, 94(4), 2401-2407 (1991).
44. H. Sasada and K. Yamada, "Calibration lines of HCN in the 1.5-μm region," Applied Optics, 29 (24), 3535-3547 (1990).
45. H. Sasada and T. Amano, "Observation of the 2ν₁ band of HN₂⁺ with a 1.57 μm distributed feedback semiconductor laser," Journal of Chemical Physics, 92(4), 2248-2250 (1990).
46. S. Kinugawa and H. Sasada,"Wavenumber measurement of the 1.5-μm band of acetylene by semiconductor laser spectrometer," Japanese Journal of Applied Physics, 29(3), 611-612 (1990).
47. T. Ohshima and H. Sasada, "1.5-μm DFB Semiconductor laser spectroscopy of deutrated water," Journal of Molecular Spectroscopy, 136, 250-263 (1989).
48. H. Sasada, "1.5 μm DFB semiconductor laser spectroscopy of HCN," Journal of Chemical Physics, 88(2), 767-777 (1987).
49. H. Sasada, R. H. Schwendeman, G. Magerl, R. L. Poynter, and J. S. Margolis, "High-resolution spectroscopy of the v₂=2a-v₂=1s band of ¹⁴NH₃," Journal of Molecular Spectroscopy, 117, 317-330 (1986).
50. H. Sasada and R. H. Schwendeman, "High-resolution spectroscopy of the v₂=2a-v₂=1s band of ¹⁵NH₃," Journal of Molecular Spectroscopy, 117, 331-341 (1986).
51. K. Uehara, H. Sasada, N. Ukaji, and T. Kasuya, "100-cm^-1 scan range single-mode dye laser," Review of Scientific Instrument, 56(7), 1352-1355 (1985).
52. H. Sasada, "Stark-modulation spectroscopy of NH₃ with a 1.23-μm semiconductor laser," Optics Letters, 9(10), 448-450 (1984).
53. H. Sasada, Y. Hasegawa, T. Amano, T. Shimizu, "High-resolution infrared and microwave spectroscopy of the ν₄ and 2ν₂ bands of ¹⁴NH₃ and ¹⁵NH₃," Journal of Molecular Spectroscopy, 96, 106-130 (1982).
54. H. Sasada, "Microwave inversion spectrum of ¹⁵NH₃," Journal of Molecular Spectroscopy, 83, 15-20 (1980).
55. T. Shimizu, N. Morita, T. Kasuga, H. Sasada, F. Matsushima, and N. Konishi,"Studies of molecular relaxation by infrared and microwave coherent transients," Applied Physics, 21, 29-34 (1980).

本、記事

1. 佐々田、”分光研究で用いられる光コム ーデュアル・コム分光法を理解するためにー”分光研究 62巻、p. 99-110 (2013).
2. 佐々田、”光周波数コム技術の現状と展開”光学　41巻、p. 460-466 (2012).
3. 佐々田、”粒子を運ぶ光のパイプライン”　パリティー　26巻、p. 24-26 (2011).
4. 佐々田、”レーザー誕生５０周年”　分光研究　(2010).
5. 上原　喜代治、長谷川　太郎、佐々田, ”光学実験の基礎と改良のヒント”　分光測定入門シリーズ　第２巻　講談社サイエンティフィック　(2009).
6. 佐々田、”精密レーザー分光学の黎明期”　パリティー　22巻、p.21-29 (2007).
7. 佐々田、”低温極性分子のマイクロ波トラップ”　分光研究　54巻、p.178-179 (2005).
8. 佐々田、”メタンの高分解能レーザー分光”　レーザー研究　33巻、p.316-321 (2005).
9. 佐々田、”光の軌道角運動量制御”　光学　33巻 、p. 271-277 (2004).
10. 佐々田、”２００２年光学界の進展、分光”　光学　32巻 、p. 206 (2003).
11. 阿部、川村、佐々田、"物理学「新訂版」" 新物理学ライブラリ、サイエンス社 (2002).
12. 佐々田、”外部共振器型半導体レーザーによる高分解能近赤外分子分光”応用物理　65巻、p.964-965 (1996).
13. H. Sasada, "Chapter II, Near-infrared molecular spectroscopy and possible frequency references for frequency control of semiconductor lasers," in "Frequency control of semiconductor lasers," edited by M. Ohtsu, John Wiley & Sons, Inc., New York (1996).
14. 佐々田、"Ｉ編 2.6 近赤外半導体レーザー分光" 実験化学講座６、分光Ｉ、丸善 (1990)
15. 上原、佐々田、”ダイオードレーザーの広帯域掃引”応用物理　56巻、p.1367-1368 (1987).
16. K. Uehara and H. Sasada, "High resolution spectral atlas of nitrogen dioxide 559-597 nm," Springer Series in Chemical Physics 41, Springer verlag, Berlin (1985).

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