1. |
Totaro IMASAKA, Gas Chromatography/Multiphoton Ionization/Time-of-Flight Mass Spectrometry Using a Femtosecond Laser, Anal.Bioanal.Chem., 405,6907-6912, 2013.09. |
2. |
Establishment of A Venture Company, "Laboratory of Optical Engineeering" -Commercialization of A Laser Ionization Mass Spectrometer-. |
3. |
T. Imasaka, Molecular System of Hydrogens, Science for Future Chemistry, 3, 37-43, 2010.12. |
4. |
T. Imasaka, The Generation of an Ultrashort Optical Pulse Train at the World-Fastest Repetition Rate, Proc. The sixth Conference on Ultrafast Phenomena (ACUP2010), 2010.12. |
5. |
T. Imasaka, Two-Color Stimulated Raman Effect for the Generation of Ultrashort Optical Pulse, Proc. Fifth Asian Symposium on Intense Laser Science (ASILS-5), Publishing House for Science and Technology (Hanoi, Vietnam), 47-54, 2010.12. |
6. |
今坂藤太郎, Analytical Sciencesからのメッセージ, ぶんせき, No. 9, p.1, 2009.09. |
7. |
内村智博、荒木祥恵、川鍋智史、三宅里奈、今坂藤太郎, 波長可変ピコ秒レーザーを用いる蛍光寿命イメージング顕微鏡の開発とその細胞測定への応用, 分析化学, 58 (6), 487-494, 2009.06. |
8. |
T. Imasaka, How can you publish in Analytical Sciences?, Analytical Sciences, 25(3), 321-321, 2009.03. |
9. |
T. Uchimura, T. Itoh, M. Kawano, K. Sueishi, T. Imasaka, A Pulsed Nozzle for Application to Gas Chromatography/Supersonic Jet/Multiphoton Ionization Mass Spectrometry, Persistent Organic Pollutants (POPs), Research in Asia, 57-62, 2008.12. |
10. |
T. Imasaka, “Rainbow-Stars” –Two-Color Stimulated Raman Emission for Generation of Short Optical Pulse-, Science for Future Molecular Science, 38-39, 2008.12. |
11. |
T. Imasaka, Ultraviolet Femtosecond Laser Ionization Mass Spectrometry, Chemical Record, 8(1), pp.23-32, 2004.01. |
12. |
T. Imasaka, Development of An Analytical Instrument for Practical Trace Analysis of Dioxins, Annual Report 2006, 93-94 (2007), 2007.05. |
13. |
Generation of Coherent Side Bands Using A Continuous-Wave Laser. |
14. |
T. Imasaka, Generation of An Ultimately-Short Optical Pulse and Its Application, Annual Report 2005, 95-96 (2006), 2006.05. |
15. |
"Center for Future Chemistry" and "Translational Center". |
16. |
Rainbow Stars-A challange for the generation of an ultimately-short optical pulse. |
17. |
T. Imasaka, Fusion of Humanity and Technology -From Education in Undergraduate and Graduate Schools, Development of High Technology, to Establishment to Venture Business-, Annual Report of the Faculty of Engineering, Kyushu University, 68-69, 2005.05. |
18. |
Laser Research Core. |
19. |
T. Imasaka, High-technology laser research core, Kyushu University Research Core, 25, 2005.02. |
20. |
T. Imasaka, Thermal Lensing Spectrometry, Encyclopedia of Analytical Chemistry, pp.50-57, 2004.01. |
21. |
T. Imasaka, Generation of a Multi-Color Ultimately-Short Optical Pulse and Its Application, Annula Report of the Faculty of Engineering, Kyushu University, pp.47-55, 2004.05. |
22. |
Progress in Laser Ionizatiaon Mass Spectrometry in the Future, T. Imasaka, Bunseki, (5), 344 (1998).. |
23. |
T. Imasaka, Optical Chromatography -A New Tool for Separation of Particles, Analusis, 26(5), M53, 1998.06. |
24. |
Study on Multi-Color Laser Emission Based on Four-Wave Raman Mixing, Y. Hirakawa, T. Imasaka, Report of Institute for Ionized Gas and Laser Research, Kyushu University, (8), 33 (1998).. |
25. |
Development of Supersonic Jet/Multiphoton Ionization Mass Spectrometer and Its Application to Trace Analysis of Dioxins and Their Precursors, T. Imasaka, Shinku Journal, (60), 20 (1998).. |
26. |
T. Imasaka, Supersonic Jet Multiphoton - Ionization Mass Spectrometry Using a Femtosecond Laser, Trends in Analytical Chemistry, 17(8,9), 551, 1998.09. |
27. |
T. Imasaka, Diode Lasers in Analytical Chemistry, 48(2), 305-320, 1999.02. |
28. |
New Technology in Sensitive Monitoring Technique, T. Imasaka, Material Integration, 12(4), 2(1999).. |
29. |
How do you measure? -Michrochip Analytical Technique-, T. Imasaka, Kagaku, 54(10), 42-44 (1999).. |
30. |
Report of IUPAC: Division of Spectrochemical and Other Optical Procedures for Analysis (V-4),T. Imasaka, Bunseki, (6), 347-348 (2000).. |
31. |
Recent Directions in the Journal of Analytical Chemistry, T. Imasaka, Bunseki, (8), 491 (2000).. |
32. |
Measurements of Ultratrace Molecules, T. Imasaka, Bunseki, (10), 597-601 (2000).. |
33. |
Supersonic Jet Spectrometry, T. Imasaka, Bunseki Kagaku, 50(1), 3-30 (2001).. |
34. |
Analyses of Dioxins and Thermally Decomposed Products of Plastics by Means of Supersonic Jet/Laser-Induced Multiphoton Ionization/Mass Spectrometry, T. Imasaka, Shiku, 44(1), 16-22 (2001).. |
35. |
Rainbow Stars: the Story thereafter -Application to Diffractive Optical Chemical Sensor, T. Imaska, (2), 93-96 (2001).. |
36. |
Development of Analytical Instrument for On-Line Real-Time Monitoring of Dioxins, T. Imasaka, Annual Review of Kyushu University, (18), 107 (2001).. |
37. |
Activities of Graduate Students in Foreign Country, T. Imasaka, J. Matsumoto, N. Takeyasu, T. Uchimura, H. Ohtsuka, Bunseki, (10), 550-552 (2001).. |
38. |
Development in the Field of Supersonic Jet Spectrometry and the Prospects in the Future, T. Imasaka, Bunseki, Supplement, 117-119 (2002).. |
39. |
On-line Real-Time Ultratrace Analysis of Dioxins, T. Imasaka, Kagaku Kogyo, 54(6), 409-414 (2003).. |
40. |
T. Imasaka, D. S. Moore, T. Do-Dinh, Critical Assessment: Use of Supersonic Jet Spectrometry for Complex Mixture Analysis, Pure and Applied Chemistry, 75(7), 975-998, 2003.07. |
41. |
Rainbow Stars -Laser Display Consisting of Rainbow Colors-, T. Imasaka, Annual Review of Kyushu University, (20), 481-1-2 (2003).. |
42. |
Imasaka T, Generation of Multi-Color Ultrashort Laser Pulse and Its Application to the-State-of-the-Art Modern Technology, Annual Report of Faculty of Engineering, Kyushu University, 74-76, 2003.01. |