Kyushu University Academic Staff Educational and Research Activities Database
List of Papers
Yoshida Takashi Last modified date:2019.07.02

Professor / Applied Energy Engineering / Department of Electrical Engineering / Faculty of Information Science and Electrical Engineering


Papers
1. S.OTA, Y.MATSUGI, T.NAKAMURA, R.TAKEDA, Y.TAKEMURA, I.KATO, S.NOHARA, T.SASAYAMA, T.YOSHIDA, K.ENPUKU, Effects of size and anisotropy of magnetic nanoparticles associated with dynamics of easy axis for magnetic particle imaging, JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 10.1016/j.jmmm.2018.11.043, 474, 311-318, 2019.03.
2. A.L.ELREFAI, T.YOSHIDA, K.ENPUKU, Magnetic parameters evaluation of magnetic nanoparticles for use in biomedical applications, JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 10.1016/j.jmmm.2018.11.022, 474, 522-527, 2019.03.
3. T.YOSHIDA, T.NAKAMURA, O.HIGASHI, K.ENPUKU, Effect of viscosity on the AC magnetization of magnetic nanoparticles under different AC excitation fields, JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 10.1016/j.jmmm.2018.09.127, 471, 334-339, 2019.02.
4. K.ENPUKU, M.MATSUO, Y.YOSHIDA, S.YAMASHITA, T.SASAYAMA, T.YOSHIDA, Magnetometer based on transfer and modulation of magnetic flux using high-critical-temperature superconductor coils, 2018.07.
5. T.YOSHIDA, T.NAKAMURA, O.HIGASHI, K.ENPUKU, Magnetic fractionation and characterization of magnetic nanoparticles for magnetic particle imaging, JAPANESE JOURNAL OF APPLIED PHYSICS, 10.7567/JJAP.57.080302, 57, 8, 2018.08.
6. A.L.ELREFAI, T.SASAYAMA, T.YOSHIDA, K.ENPUKU, Empirical expression for DC magnetization curve of immobilized magnetic nanoparticles for use in biomedical applications, AIP ADVANCES, 10.1063/1.5004725, 8, 5, 2018.05.
7. K.ENPUKU, M.MATSUO, Y.YOSHIDA, S.YAMASHITA, T.SASAYAMA, T.YOSHIDA, Low-noise magnetometer based on inductance modulation in high-critical-temperature superconductor coil, JAPANESE JOURNAL OF APPLIED PHYSICS, 10.7567/JJAP.57.060314, 57, 6, 2018.06.
8. M. MUTA, S. HAMANAGA, N. TANAKA, T. SASAYAMA, T. YOSHIDA, K. ENPUKU, Three-dimensional imaging of magnetic nanoparticles using multiple pickup coils and field-free line, JAPANESE JOURNAL OF APPLIED PHYSICS, 10.7567/JJAP.57.023002, 57, 2, 2018.02.
9. A. L. Elrefai, T. Sasayama, T. Yoshida, K. Enpuku, Magnetic Core-Size Distribution of Magnetic Nanoparticles Estimated From Magnetization, AC Susceptibility, and Relaxation Measurements, IEEE TRANSACTIONS ON MAGNETICS, 10.1109/TMAG.2017.2700480, 53, 11, 2017.11.
10. D. Cabrera, A. Lak, Takashi Yoshida, M. E. Materia, D. Ortega, F. Ludwig, P. Guardia, A. Sathya, T. Pellegrino, F. J. Teran, Unraveling viscosity effects on the hysteresis losses of magnetic nanocubes, Nanoscale, 9, 5094-5101, 2017.04.
11. Takashi Yoshida, Yuki Matsugi, Naotaka Tsujimura, Teruyoshi Sasayama, Keiji Enpuku, Thilo Viereck, Meinhard Schilling, Frank Ludwig, Effect of alignment of easy axes on dynamic magnetization of immobilized magnetic nanoparticles, J. Magn. Magn. Mater., 427, 162-167, 2017.04.
12. Teruyoshi Sasayama, Yuya Tsujita, Manabu Morishita, Masahiro Muta, Takashi Yoshida, Keiji Enpuku, Three-dimensional magnetic nanoparticle imaging using small field gradient and multiple pickup coils, J. Magn. Magn. Mater., 427, 143-149, 2017.04.
13. Keiji Enpuku, Yuya Tsujita, Kota Nakamura, Teruyoshi Sasayama, Takashi Yoshida, Biosensing utilizing magnetic markers and superconducting quantum interference devices, Supercond. Sci. Technol., 30, 053002, 2017.03.
14. Takashi Yoshida, Teruyoshi Sasayama, Keiji Enpuku, Effect of Core Size Distribution of Immobilized Magnetic Nanoparticles on Harmonic Magnetization, International Journal on Magnetic Particle Imaging, 3, 1, 1703002, 2017.03.
15. Teruyoshi Sasayama, Takashi Yoshida, Keiji Enpuku, Relationship between harmonic spectra and coercive field of immobilized magnetic nanoparticles, Japanese Journal of Applied Physics, 56, 025001, 2017.01.
16. Takashi Yoshida, Teruyoshi Sasayama, Keiji Enpuku, Biological applications of magnetic nanoparticles, ECS Transactions, 75, 2, 39-47, 2016.10.
17. Masakazu Ura, Kohei Noguchi, Yuta Ueoka, Kota Nakamura, Teruyoshi Sasayama, Takashi Yoshida, Keiji Enpuku, Improved liquid-phase detection of biological targets based on magnetic markers and high-critical-temperature superconducting quantum interference device, IEICE Transactions on Electronics, E99-C, 6, 669-675, 2016.06.
18. Keiji Enpuku, Teruyoshi Sasayama, Takashi Yoshida, Estimation of Magnetic Moment and Anisotropy Energy of Magnetic Markers for Biosensing Application, Journal of Applied Physics, 119, 184902, 2016.05.
19. Takashi Yoshida, N. Tsujimura, K. Tanabe, Teruyoshi Sasayama, Keiji Enpuku, Evaluation of Complex Harmonic Signals from Magnetic Nanoparticles for Magnetic Particle Imaging, IEEE Trans. Magn., 51, 11, 7118196, 2015.11.
20. Teruyoshi Sasayama, Takashi Yoshida, Kazuhiro Tanabe, Naotaka Tsujimura, Keiji Enpuku, Hysteresis Loss of Fractionated Magnetic Nanoparticles for Hyperthermia Application, IEEE Trans. Magn., 51, 11, 5101504, 2015.11.
21. S. Bai, A. Hirokawa, K. Tanabe, Teruyoshi Sasayama, Takashi Yoshida, Keiji Enpuku, Narrowband Magnetic Particle Imaging Utilizing Electric Scanning of Field Free Point , IEEE Trans. Magn., 51, 11, 5101404, 2015.11.
22. S. Bai, A. Hirokawa, K. Tanabe, Teruyoshi Sasayama, Takashi Yoshida, Keiji Enpuku, Narrow-band magnetic nanoparticle imaging using orthogonal gradient field, J. Magn. Soc. Jpn, 39, 216-219, 2015.05.
23. M. M. Saari, K. Sakai, T. Kiwa, Teruyoshi Sasayama, Takashi Yoshida, K. Tsukada, Characterization of the magnetic moment distribution in low-concentration solutions of iron oxide nanoparticles by a high-T c superconducting quantum interference device magnetometer, 117, 17B321, 2015.04.
24. Teruyoshi Sasayama, Takashi Yoshida, M.M. Saari, Keiji Enpuku, Comparison of volume distribution of magnetic nanoparticles obtained from M-H curve with a mixture of log-noral distributions, 117, 17D155, 2015.04.
25. Keiji Enpuku, T. Miyazaki, M. Morishita, Y. Tsujita, M. Matsuo, S. Bai, Teruyoshi Sasayama, Takashi Yoshida, Narrowband magnetic particle imaging using cooled pickup coil and gradient field, 54, 057002, 2015.03.
26. T. Wawrzik, Takashi Yoshida, M. Schilling, F. Ludwig, Debye-Based Frequency-Domain Magnetization Model for Magnetic Nanoparticles in Magnetic Particle Spectroscopy, 51, 2, 5300404, 2015.02.
27. Takashi Yoshida, S. Bai, A. Hirokawa, K. Tanabe, Keiji Enpuku, Effect of viscosity on harmonic signals from magnetic fluid, Journal of Magnetism and Magnetic Materials, 380, 105-110, 2015.04.
28. Keiji Enpuku, T. Sakakibara, Takashi Yoshida, Liquid-Phase Detection of Biological Targets Using Magnetoresistive Sensor and Magnetic Markers, IEEE Trans. Magn., 50, 11, 5101204, 2014.11.
29. S. Bai, A. Hirokawa, K. Tanabe, Takashi Yoshida, Keiji Enpuku, Magnetic Particle Imaging Utilizing Orthogonal Gradient Field and Third-Harmonic Signal Detection, IEEE Trans. Magn., 50, 11, 5101304, 2014.11.
30. Keiji Enpuku, S. Bai, A. Hirokawa, K. Tanabe, Teruyoshi Sasayama, Takashi Yoshida, The effect of Neel relaxation on the properties of the third harmonic signal of magnetic nanoparticles for use in narrow-band magnetic nanoparticle imaging, Japanese Journal of Applied Physics, 53, 103002, 2014.09.
31. Keiji Enpuku, Y. Ueoka, T. Sakakibara, M. Ura, Takashi Yoshida, T. Mizoguchi, A. Kandori, Liquid-phase immunoassay utilizing binding reactions between magnetic markers and targets in the presence of a magnetic field, Applied Physics Express, 7, 097001, 2014.08.
32. T. Morishige, T. Mihaya, S. Bai, T. Miyazaki, Takashi Yoshida, M. Matsuo, Keiji Enpuku, Highly Sensitive Magnetic Nanoparticle Imaging Using Cooled-Cu/HTS- Superconductor Pickup Coils, IEEE Trans Appl. Supercond., 24, 4, 1800105, 2014.08.
33. S. Uchida, Y. Higuchi, Y. Ueoka, Takashi Yoshida, Keiji Enpuku, S. Adachi, K. Tanabe, A. Tsukamoto, A. Kandori, Highly Sensitive Liquid-Phase Detection of Biological Targets With Magnetic Markers and High Tc SQUID, IEEE Trans Appl. Supercond., 24, 4, 1600105, 2014.08.
34. N.B. Othman, T. Tsubaki, D. Kitahara, Takashi Yoshida, Keiji Enpuku, Harmonic signal analysis for magnetic nanoparticle imaging, J. Jap. Soc. of Powder Powder Metall., 61, S1, 133-136, 2014.05.
35. Takashi Yoshida, N. B. Othman, Keiji Enpuku, Characterization of magnetically fractionated nanoparticles for magnetic particle imaging, J. Appl. Phys., 114, 173908, 2013.11.
36. S. Uchida, Y. Higuchi, Y. Ueoka, Takashi Yoshida, Keiji Enpuku, S. Adachi, K. Tanabe, A. Tsukamoto, Liquid-phase detection of biological targets with magnetic markers and high Tc SQUID, 2013 IEEE 14th InternationalSuperconductive Electronics Conference, ISEC 2013, art. no. 6604304 , 2013.10.
37. T. Morishige, T. Mihaya, T. Miyazaki, Takashi Yoshida, M. Matsuo, Keiji Enpuku, Magnetic nanoparticle imaging using cooled-Cu/HTS-superconductor pickup coils, 2013 IEEE 14th InternationalSuperconductive Electronics Conference, ISEC 2013, art. no. 6604312 , 2013.10.
38. Keiji Enpuku, T. Morishige, T. Mihaya, T. Miyazaki, M. Matsuo, S. Haku, Takashi Yoshida, Magnetic nanoparticle imaging using cooled pickup coil and harmonic signal detection, Jpn. J. Appl. Phys., 52, 087001, 2013.08.
39. Y. Higuchi, S. Uchida, A. K. Bhuiya, Takashi Yoshida, Keiji Enpuku, Characterization of magnetic markers for liquid^phase detection of biological targets, IEEE Trans. Magn., 49, 7, 3456-3459, 2013.07.
40. N. B. Othman, T. Tsubaki, D. Kitahara, Takashi Yoshida, Keiji Enpuku, A. Kandori, Magnetic nanoparticle imaging using second harmonic signal for sentinel lymph node detection, J. Magn. Soc. Jpn., 37, 3-2, 295-298, 2013.03.
41. J. DIECKHOFF, Yoshida Takashi, Enpuku Keiji, M. SCHILLING, F.LUDWIG, Homogeneous Bioassays Based on the Manipulation of Magnetic Nanoparticles by Rotating and Alternating Magnetic Fields – a Comparison, IEEE Transactions on Magnetics, 48, 11, 3792-3795, 2012.11.
42. Yoshida Takashi, N.B. OTHMAN, T. TSUBAKI, J. TAKAMIYA, Enpuku Keiji, Evaluation of Harmonic Signals for the Detection of Magnetic Nanoparticles, IEEE Transactions on Magnetics, 48, 11, 3788-3791, 2012.11.
43. F. LUDWIG, T. WAWRZIK, Yoshida Takashi, N. GEHRKE, A. BRIEL, D. EBERBECK, M. SCHILLING, Optimization of Magnetic Nanoparticles for Magnetic Particle Imaging, IEEE Transactions on Magnetics, 48, 11, 3780-3783, 2012.11.
44. N.B. OTHMAN, T. TSUBAKI, Yoshida Takashi, Enpuku Keiji, A. KANDORI, Magnetic Nanoparticle Imaging Using Harmonic Signals, IEEE Transactions on Magnetics, 48, 11, 3776-3779, 2012.11.
45. A.K. BHUIYA, M. ASAI, H. WATANABE, T. HIRATA, Y. HIGUCHI, Yoshida Takashi, Enpuku Keiji, Characterization of Magnetic Markers and Sensors for Liquid-Phase Immunoassays using Brownian Relaxation, IEEE Transactions on Magnetics, 48, 11, 2838-2841, 2012.11.
46. Enpuku Keiji, R. Momotomi, T. MIHAYA, M. MATSUO, Yoshida Takashi, A.KANDORI, S.ADACHI, A.TSUKAMOTO, Performance of Pickup Coil Made of Litz Wire and Coupled to HTS SQUID, Physics Procedia, 36, 400-404, 2012.07.
47. T. Yoshida and K. Enpuku, Nonlinear Behavior of Magnetic Fluid in Brownian Relaxation: Numerical Simulation and Derivation of Empirical Model, Springer Proceedings in Physics, 140, 7-11, 2012.03.
48. T. Yoshida, K. Enpuku, F. Ludwig, J. Dieckhoff, T. Wawrzik, A. Lak, and M. Schilling, Characterization of Resovist Nanoparticles for Magnetic Particle Imaging, Springer Proceedings in Physics, 140, 1-5, 2012.03.
49. T. Yoshida, K. Enpuku, J. Dieckhoff, M. Schilling, and F. Ludwig, Magnetic fluid dynamics in a rotating magnetic field, Journal of Applied Physics, 111, 053901-1-10, 2012.03.
50. K. Enpuku, H. Watanabe, Y. Higuchi, T. Yoshida, H. Kuma, N. Hamasaki, M. Mitsunaga, H. Kanzaki, and A. Kandori, Characterization of Magnetic Markers for Liquid-Phase Immunoassays Using Brownian Relaxation, Japanese Journal of Applied Physics, 51, 023002, 2012.01.
51. A. K. Bhuiya, T. Mitake, M. Asai, T. Ito, S. Chosakabe, T. Yoshida, K. Enpuku, and A. Kandori, Liquid-Phase Immunoassays Using Brownian Relaxation of Magnetic Markers, IEEE Transactions on Magnetics, 47, 2867-2870, 2011.10.
52. T. Yoshida, K. Ogawa, T. Tsubaki, N. B. Othman, and K. Enpuku, Detection of Magnetic Nanoparticles Using the Second-Harmonic Signal, IEEE Transactions on Magnetics, 47, 2863-2866, 2011.10.
53. N. B. Othman, T. Tsubaki, T. Yoshida,and K. Enpuku, Magnetic Particle Imaging for Biomedical Applications, Research reports on information science and electrical engineering of Kyushu University, 16, 2, 51-56, 2011.09.
54. A. K. Bhuiya, M. Asai, T. Yoshida, and K. Enpuku, Magnetic Sensor Based Liquid-Phase Immunoassays for the Detection of Biological Targets, Research reports on information science and electrical engineering of Kyushu University, 16, 2, 45-50, 2011.09.
55. K. Enpuku, S. Hirakawa, R. Momotomi, M. Matsuo, T. Yoshida, and A. Kandori, Design of Pickup Coil Made of Litz Wire and Cooled at 77K for High Sensitive, Japanese Journal of Applied Physics, 50, 076602, 2011.07.
56. K. Enpuku, S. Hirakawa, Y. Tsuji, R. Momotomi, M. Matsuo, T. Yoshida, and A. Kandori, HTS SQUID Magnetometer Using Resonant Coupling of Cooled Cu Pickup Coil, IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY, 21, 3, 514-517, 2011.06.
57. K. Enpuku, S. Hirakawa, R. Momotomi, M. Matsuo, and T. Yoshida, Performance of HTS SQUID using resonant coupling of cooled Cu pickup coil, Physica C, 471, 1234–1237, 2011.05.
58. Method of magnetic-field application for liquid phase immunoassay using SQUID.
59. T. Yoshida, K. Ogawa, A.K. Bhuiya and K. Enpuku, Nonlinear behavior of magnetic fluid in Brownian relaxation, AIP Conference Proceedings, 1311, 102-110, 2010.12.
60. K. Enpuku, Y. Tsuji, S. Hirakawa, M. Matsuo and T. Yoshida, Performance of HTS SQUID coupled to cooled-Cu/superconductor pickup coil, Physica C, 470, 20, 1511-1514, 2010.11.
61. A.K. Bhuiya, T. Yoshida and K. Enpuku, Characterization of magnetic markers for bio-sensing application, 九州大学大学院システム情報科学紀要, 15, 2, 77-83, 2010.09.
62. K. Enpuku, Y. Tamai, T. Mitake, T. Yoshida and M. Matsuo, Ac susceptibility measurement of magnetic markers in suspension for liquid phase immunoassay, J. Appl. Phys., 108, 3, 034701, 2010.08.
63. T. Yoshida, K. Ogawa, K. Enpuku, N. Usuki and H. Kanzaki, AC susceptibility of magnetic fluid in nonlinear Brownian relaxation region: experiment and comparison with numerical simulation, Jpn. J. Appl. Phys., 49, 5, 053001, 2010.05.
64. T. Yoshida and K. Enpuku, Simulation and quantitative clarification of AC susceptibility of magnetic fluid in nonlinear Brownian relaxation region, Jpn. J. Appl. Phys., 48, 127002, 2009.12.
65. Analysis of levitation and propulsion Forces and Vibration Control Method of Combined-Levitation-and-Propulsion SLIM.
66. Kinjiro Yoshida, Takashi Yoshida, Shinichi Manabe, Tsuyoshi Yorishige, Control of New PM LSM Maglev Vehicle Based on Analysis of Pitching Torque and Propulsion Force, IISIE, 2007.06.
67. K. Yoshida, T. Yoshida, M. Suganuma, K. Oshima, Guidance Motion Control for Air-Suspended Hybrid Linear Motor Vehicle in SLIM Section by Using the Orthogonal LM, 2006 International Conference on Electrical Machines and Systems, 2006.11.
68. K. Yoshida, T. Yoshida, H. Takami, M. Suganuma, K. Oshima, Lateral Running Control for Air-Suspended Hybrid Linear Motor Vehicle, 11th European Conference on Power Electronics and Applications, 2005.09.
69. K. Yoshida, K. Oshima, M. Suganuma, H. Takami, T. Yoshida, T. Kawai, Steering Guidance Control in SLIM Drives of Air-Suspended Hybrid LM Vehicle, 5th International Symposium on Linear Drives for Industry Applications, pp. 235-238, 2005.09.
70. K. Yoshida, M. Suganuma, K. Oshima, H. Takami, T. Yoshida, T. Kawai, Steering Control Traveling Experiment of Air-Suspended Hybrid Linear Motor Vehicle Passing Through Continuous LIM and LSM Sections, 2005 International Power Electronics Conference, pp.1520-1527, 2005.04.
71. K.Yoshida, T. Yoshida, K. Noda, Y. Takahara, 3-D FEM Analysis and Formulation of Thrust and Attractive-Normal Forces in SLIM, 7th International Conference on Electrical Machines and Systems, 2004.11.
72. K. Yoshida, T. Yoshida, H. Takami, M. Suganuma, K. Oshima, Propulsion Control of Air-Suspended Hybrid Linear Motor Vehicle Based on Decoupled Control in SLIM/LSM, 18th International Conference on Magnetically Levitated Systems and Drives, pp.803-808, 2004.10.
73. K.Yoshida, T. Yoshida, K. Noda, Influence of Instantaneous End Effects on Attractive Levitation Force at Standstill of Combined-Levitation-and-Propulsion SLIM, 6th International Conference on Electrical Machines and Systems, 187-190, Vol.1, pp.187-190, 2003.11.
74. K.Yoshida, T. Yoshida, H. Takami, K. Noda, Combined Levitation-and-Propulsion Control of SLIM Maglev Vehicle on Flexible Guideway with High Performance Control System, 7th International Symposium on Magnetic Suspension Technology, pp.89-94, 2003.10.
75. K.Yoshida, T. Yoshida, H. Takami, M. Suganuma, K. Oshima, High Performance Control of Air Suspended Hybrid Linear Motor Vehicle in LIM Section, 7th International Symposium on Magnetic Suspension Technology, pp.170-175, 2003.10.
76. K.Yoshida, H. Takami, T. Yoshida, M. Suganuma, K. Oshima, A LIM/LSM Switching Strategy in Hybrid Linear Transport Maglev System, 7th International Symposium on Magnetic Suspension Technology, pp.176-181, 2003.10.
77. K.Yoshida, T. Yoshida, K. Noda, Y. Takahara, Analysis of Thrust and Attractive-Normal Forces in Air-Suspended LIM Vehicle, 7th International Symposium on Magnetic Suspension Technology, pp.203-208, 2003.10.
78. K.Yoshida, K. Noda, Combined-Levitation-and-Propulsion Control of SLIM Maglev Vehicle on Flexible Guideway, 10th European Conference on Power Electronics and Applications, 2003.09.
79. K.Yoshida, T. Yoshida, Soft Touch Mass-Reduced-Mode Control of Attractive Force in SLIM Vehicle Propulsion, 電気学会論文誌, Vol.123-D, No.5, 2003.05.
80. K.Yoshida, T. Yoshida, K.Noda, Combined-Levitation-and-Propulsion Control of SLIM Maglev Vehicle on Flexible Guideway, Research Report on Information Science and Electrical Engineering of Kyushu University, 第8巻第1号, 2003.03.
81. K.Yoshida, T. Yoshida, K. Hayashi, Combined Levitation and Propulsion Control in a SLIM Experimental Maglev Vehicle, International Symposium on Magnetic Suspension Technology, Vol.1, pp.404-409, 2001.10.
82. K.Yoshida, T. Yoshida, K. Hayashi, H. Takami, Decoupled Control of Levitation and Propulsion in SLIM Experimental Maglev Vehicle, International Conference on Electrical Machines, pp.228-232, 2000.08.
83. K.Yoshida, L.Shi, T. Yoshoda, Decoupled Control method of Normal and Thrust Forces in SLIM Maglev Vehicle ME01, Research Report on Information Science and Electrical Engineering of Kyushu University, 第5巻第1号, 2000.03.
84. K.Yoshida, L.Shi, T.Yoshida, A Proposal of Decoupled-Control of Attractive-Normal and Thrust Forces in a SLIM for Maglev Vehicle, 6th International Conference ELECTRIMACS’99, Vol.3, pp.221-226, 1999.09.
85. K. Yoshida, L. Shi, T. Yoshida, Decoupled-Control method of Normal and Thrust Forces in Linear Induction Motor for Maglev Vehicle Marine-Express ME01, IEEE International Electric Machines and Drives Conference, 10.1109/IEMDC.1999.769118, 369-371, pp.369-371, 1999.05.