2024 |
Saburo Tanaka, Faiz Dhiyauddin Bin Ahamad Zawati and Takeyoshi
Ohtani, “Application of Lock-In Detection Method to HTS SQUID
Contaminant Detection”, IEEE Transactions on Applied Superconductivity,
34, (2024), No.3 1600305_1-5. (doi: 10.1109/TASC.2024.3358794)
|
2023 |
K. Hayashi, R. Ohtani, Y. Tottori, S. Ariyoshi, and S. Tanaka, “Flux Noise Reduction of HTS-SQUIDs via Introduction of Antidots”, IEEE Transactions on Applied Superconductivity, 33, (2023), No.5 1600704_1-4. (doi: 10.1109/TASC.2023.3249648) |
Saburo Tanaka, Takashi Izu, Ryo Ohtani, and Kanji Hayashi, “Design of a
High-Tc SQUID Planer Gradiometer and Evaluation of Sensitivity Distribution”,
IEEE Transactions on Applied Superconductivity, 33, (2023), No.5 1600204_1-4.
(doi: 10.1109/ TASC.2023.3240388) |
2022 |
Kanji Hayashi, Ryo Ohtani, Yuki Tottori, Seiichiro Ariyoshi and Saburo
Tanaka, “Study of HTS Nanobridge Josephson Junctions made by FIB”, IEEE
Transactions on Applied Superconductivity, 32, (2022), No.9 1100406_1-6.
(doi: 10.1109/TASC.2022.3206226) |
S. Tanaka, M. Sagawa, K. Hayashi and T. Ohtani, “Consideration of Magnetic
dipole Orientation in liquid detected by Metallic Contaminants Detection
System using High-Tc SQUID”, IEEE Transactions on Applied Superconductivity,
32, (2022) 1600106_1-6. (doi: 10.1109/TASC.2021.3135056) |
M Ohkubo, G Uehara, J Beyer, M Mimura, H Tanaka, K Ehara, S Tanaka, T Noguchi,
E E Mitchell, C P Foley and R L Fagaly, “Standard measurement method for
normal state resistance and critical current of resistively shunted Josephson
junctions”, Superconductor Science and Technology, 35, (2022) 045002. (doi:
10.1088/1361-6668/ac4f3b) |
2021 |
R Ohtani, K Hayashi, M Sagawa, S Ariyoshi and S Tanaka, “Estimation of
Critical Current of HTS RF-SQUID”, Journal of Physics: Conference Series,
1975, (2021) 012022_1-4. (doi:10.1088/1742-6596/1975/1/012022) |
M Sagawa, K Hayashi, T Ohtani and S Tanaka, “Metallic
Contaminant Detection in Liquids using a High-Tc RF-SQUID”, Journal of Physics:
Conference Series, 1975, (2021) _1-4. (doi:10.1088/1742-6596/1975/1/012021) |
Kanji Hayashi, Teppei Ueda, Ryo Ohtani, Seiichiro Ariyoshi, and Saburo
Tanaka, “Fabrication of HTS Low-noise Nanobridge Josephson Junction by
Gallium FIB”, IEEE Transactions on Applied Superconductivity, 31(2021)
1101604_1-4. (doi:10.1109/TASC.2021.3072009) |
S. Tanaka, H. Chiba, T. Ohtani, K. Hayashi, A. Efimov, A. Varfolomeev and
I. Volkov, “Investigation of Inkjet Printed Composites Based on Single-Walled
Carbon Nanotubes with Superparamagnetic Nanoparticles”, IEEE Transactions
on Applied Superconductivity, (2021) 1600106_1-6. (doi:10.1109/TASC.2021.
3051297) |
2020 |
K. Hayashi, T. Ueda, R. Ohtani, S. Ariyoshi and S. Tanaka, “A Study of
the HTS Josephson Junction Formed by a Ga Focused Ion Beam”, Journal of
Physics: Conference Series, 1590 (2020) 012044_1-5. (doi: 10.1088/1742-6596/1590/
1/012044) |
S. Tanaka and K. Nakashima, “2D Image using 2nd Harmonic Response Improved
by Application of System Function”, International Journal on Magnetic Particle
Imaging, 6, No 2, Suppl., (2020). (doi: 10.18416/IJMPI.2020.2009043) |
S. Tanaka, M. Kabasawa, K. Hayashi and T. Ohtani, “Measurement of Magnetic
Particles by Hexagonal Pseudo Seven-Channel HTS SQUID Array”, Journal of
Physics: Conference Series,1559 (2020) 012010. (doi: 10.1088/1742-6596/1559/
1/012010) |
Saburo Tanaka, Masaru Sagawa, Kanji Hayashi, and Takeyoshi Ohtani, “Development
of Metallic Contaminant Inspection System Using High-Tc rf-SQUID for Li-ion
Battery Liquid Components”, IEEE Transactions on Applied Superconductivity,
pp. 1-4, (2020). (doi: 10.1109/TASC.2020.2986315) |
2019 |
K. Demachi, K. Hayashi, S. Adachi, Member, K Tanabe, and S. Tanaka, “T1
Weighted-Image by Ultra Low Field SQUID-MRI”, IEEE Trans. Appl. Supercond.,
2902772_1-5 (2019). (doi: 10.1109/TASC.2019.2902772) |
S. Tanaka, M. Sagawa, K. Hayashi and T. Ohtani, "Development of Metallic
Contaminant Detection System Using High-Tc RF SQUIDs for Li-ion Battery
Slurry," 2019 IEEE International Superconductive Electronics Conference
(ISEC), Riverside, CA, USA, 2019, pp. 1-3. (doi: 10.1109/ISEC46533.2019.8990944) |
S Negishi, H Mikami, S Hashimoto, K Nakajima, H Terai, S Tanaka and S Ariyoshi, “Linewidth dependence of NbN-based microwave kinetic inductance detectors”, Journal of Physics: Conference Series, Vol. 1293, 012048_1-6 (2019). (doi:10.1088/1742-6596/1293/1/012048) |
2018 |
K Sato, S Ariyoshi, S Negishi, S Hashimoto, K Nakajima and S Tanaka, “Manuscript
title: Evaluation of YBa2Cu3O7-δ-based microwave kinetic inductance detectors
with rewound spiral resonators”, J of Physics Conf. Series, 1054 012053_1-7,
2018. (doi: 10.1088/1742-6596/1054/1/012053) |
Saburo TANAKA, Member, Satoshi KAWAGOE, Kazuma DEMACHI and Junichi HATTA,
“Ultra-Low Field MRI Food Inspection System using HTS-SQUID with Flux Transformer,
IEICE Trans. on Electronics, E101-C, No.8, 680-684 (2018). |
S. Tanaka, T. Matsuo, K. Kobayashi, M. Kabasawa, T. Ohtani and S. Ariyoshi, “Measurement of Magnetic Nanoparticles by Small HTS SQUID Array”, IEEE Trans. Appl. Supercond., 2792405_1-6 (2018). (DOI 10.1109/TASC.2018. 2792405) |
Saburo Tanaka, Takeyoshi Ohtani, and M. Kikuchi, “Metallic fine contaminant detection Technique using harmonic responses”, Journal of Magnetism and Magnetic Materials 459 (2018) 171–175. (doi: 10.1016/j.jmmm.2017.11.037) |
2017 |
K. Kobayashi,Y. Sanada,S. Ariyoshi and S. Tanaka, “2D-MPI System using
HTS-SQUID”, IOP Conf. Series: Journal of Physics: Conf. Series 871 (2017)
012077_1-6. (doi :10.1088/1742-6596/871/1/012077) |
K. Demachi, S. Kawagoe, S. Ariyoshi and S. Tanaka, “Ultra-Low Field SQUID-NMR
using LN2 Cooled Cu Polarizing Field coil”, IOP Conf. Series: Journal of
Physics: Conf. Series 871 (2017) 012076_1-7. (doi :10.1088/1742-6596/ 871/1/012076) |
S. Tanaka, Y. Narita, T. Ohtani, S. Ariyoshi and S. Suzuki, “Development
of Metallic Contaminant Detection System using rf High-Tc SQUID with Cu
Pickup Coil”, IEEE Trans. Appl. Supercond., 27, 1600304 (2017). (doi: 10.1109
/TASC.2016.2631424) |
Saburo Tanaka, Toshifumi Suzuki, Kazuya Kobayashi, Shu-Hsien Liao, Herng-Er Horng and Hong-Chang Yang, “Analysis of Magnetic Nanoparticles using Second Harmonic Responses”, Journal of Magnetism and Magnetic Materials, 440 (2017) 189–191. (doi: 10.1016/j.jmmm.2016.12.067) |
Saburo TANAKA, Takeyoshi OHTANI and Hans-Joachim KRAUSE, “Prototype of Multi-channel High-Tc SQUID Metallic Contaminant Detector for Large Sized Packaged Food”, IEICE Trans. on Electronics, VOL.E100?C, NO.3 (2017) 269-273. (doi: 10.1587/transele.E100.C.269) |
2016 |
S. Ariyoshi, K. Nakajima, A. Saito, T. Taino, C. Otani, H. Yamada, S. Ohshima, J. Bae, S. Tanaka, “Terahertz Response of NbN-based Microwave Kinetic Inductance Detector with Rewound Spiral Resonator”, Superconductor Science and Technology, Vol.29, No.3, pp.035012_1-5 (2016). |
Yoshimi Hatsukade, Saburo Tanaka, “NDE System Utilizing Robust HTS-SQUID Magnetometer for Use in Unshielded Environments”, IEEE Trans. Appl. Supercond, 26, EUCAS 2015 Special Issue, 1600204 (2016). (doi: 10.1109/TASC.2015.2512845) |
Saburo Tanaka, Yuuya Hirose, Masaaki Yamamoto, Hirotomo Toyoda, Satoshi
Kawagoe, Junichi Hatta and Seiichiro Ariyoshi, “Ultra-Low Field High Tc
SQUID NMR/MRI System with 77K Cooled Copper Flux Transformer”, IEEE Trans.
Appl. Supercond, 26, EUCAS 2015 Special Issue, 15751712 (2016). (doi: 10.1109/TASC.2015.2512798) |
S. Kawagoe, H. Toyota, J. Hatta, S. Ariyoshi and S. Tanaka, “Ultra-Low
Field MRI Food Inspection System Prototype”, Physica C: Superconductivity
and its applications (2016) 1-5, (doi: 10.1016/j.physc.2016.02.015) |
Takako Mizoguchi, Akihiko Kandori, Ryuzo Kawabata, Kuniomi Ogata, Tsunehiro Hato, Akira Tsukamoto, Seiji Adachi, Keiichi Tanabe, Saburo Tanaka, Keiji Tsukada, and Keiji Enpuku, “Highly Sensitive Third-Harmonic Detection Method of Magnetic Nanoparticles Using an AC Susceptibility Measurement System for Liquid-Phase Assay”, IEEE Trans. Appl. Supercond, 26, No. 5, 1602004 (2016). (doi: 10.1109/TASC.2016.2581703) |
2015 |
T. Ohtani, S. Tanaka, Y. Narita, S. Ariyoshi, and S. Suzuki, “Development
of Contaminant Detection System using HTS SQUIDs”, Progress in Superconductivity
and Cryogenics, (2015). 1-4. (doi:10.9714/psac. 2015.17.2.001) |
Tomoya Oishi, Toshihumi Suzuki1, Zhang Yi and Saburo Tanaka,
“Magnetic Particle Imaging using Magnetization Response of
Second-Harmonic”, Sensors and Materials, Special Issue on IGNITE2014,
27, No.10, (2015) 1045-1052. |
M. Yamamoto, H. Toyota, S. Kawagoe, J. Hatta and S. Tanaka, “Development
of Ultra-Low Field SQUID-MRI System with an LC Resonator”, Physics Procedia
65, 197-200 (2015). (doi: 10.1016/j.phpro.2015.05.114) |
Saburo Tanaka, Tomoya Oishi, Toshifumi Suzuki, Takeyoshi Ohtani and Seiichiro
Ariyoshi, “Imaging of Magnetic Nanoparticles using second harmonic signals”,
IEEE Trans. on Magnetics, 99, (2015) 1-4. (doi: 10.1109/TMAG.2015.2445411) |
Saburo Tanaka, Takeyoshi Ohtani, Yosuke Uchida, Yoshimi Hatsukade, and
Shuichi Suzuki, “Contaminant Detection System using High Tc SQUID for Inspection
of Lithium Ion Battery Cathode Sheet”, IEICE Trans.on Electronics, E98-C,
No.3, 174-177 (2015). |
S. Tanaka, T. Ohtani, Y. Hatsukade, and S. Suzuki, “Development of Metallic
Contaminant Detection System Using RF High-Tc SQUIDs for Food Inspection”,
IEEE Trans. Appl. Supercond, 25, 1601004 (2015). (doi: 10.1109/TASC.2014.2361893) |
Y. Hatsukade, K. Yoshida, T. Kage, T. Suzuki and S. Tanaka, “Robot-based NDE System Using Movable HTS-SQUID Magnetometer Covered with HTS Film for Use in Unshielded Environment”, IEEE Trans. Appl. Supercond, 25, 1601105 (2015). (doi: 10.1109/TASC.2014.2362847) |
Saburo Tanaka, Hayaki Murata, Tomoya Oishi, Toshifumi Suzuki, Yi Zhang,
“2D magnetic nanoparticle imaging using magnetization response second harmonic”,
Journal of Magnetism and Magnetic Materials, 383 (2015)170-174. |
S. Tanaka, T. Ohtani , Y. Uchida, Y. Hatsukade and S. Suzuki, “Ultra-Sensitive
Contaminant Detection System using High-Tc SQUID”, Journal of Superconductivity
and Novel Magnetism 28, No.2, (2015) 667-670, (doi: 10.1007/s10948-014-2668-z) |
Saburo Tanaka, Hayaki Murata, Tomoya Ohishi, Yoshimi Hatsukade, Yi Zhang,
Herng-Er Horng, Shu-Hsien Liao and Hong-Chang Yaang, “Imaging of Magnetic
Nanoparticles using a Second Harmonic of Magnetization with DC Bias Field”,
IEEE Transactions on Magnetics, 51, 6502504 (2015). (doi: 10.1109/TMAG.2014.2322375)
|
2014 |
S Tsunaki, M Yamamoto, J Hatta, Y Hatsukade, and S Tanaka, “Development
of contaminant detection system based on ultralow field SQUID-NMR/MRI”,
Journal of Physics: Conference Series 507 (2014) 042044. (doi:10.1088/1742-6596/507/4/042044) |
S. Tanaka1, H. Murata, K. Imamura and Y. Hatsukade, “Study of Cu-wound
Flux transformer for High-Tc SQUID Ultra-Low Field MRI”, Journal of Physics:
Conference Series 507 (2014) 042042 (doi:10.1088/1742-6596/507/4/042042) |
Saburo Tanaka, Takeyoshi Ohtani, Yosuke, Uchida, Takumi Chigasaki, Yoshimi
Hatsukade, “Metallic Contaminant Detection System using Multi-Channel Superconducting
Quantum Interference Device (SQUID)”, Solid State Phenomena, 215, (2014) 465-469. |
田中三郎、大谷剛義、成田雄作、鈴木周一、「高温超伝導 RF-SQUID を用いた微小金属異物検出技術」, 日本AEM学会誌 (Journal
of Japan Society of Applied Electromagnetics and Mechanics), 22巻, No.4,
pp.453-458, (2014). |
廿日出好、吉田圭介、鹿毛孝浩、鈴木健文、田中三郎、「通常環境中で移動可能なHTS-SQUID マグネトメータの開発」,低温工学,49巻,8号,pp.439-445,
2014, (doi: 10.2221/jcsj.49.439) |
2013 |
Y. Hatsukade, Y. Shinyama, K. Yoshida, T. Kage, M.S. Aly-Hassan, A. Nakai,
H. Hamada, and S. Tanaka, “SQUID NDE on braided carbon fiber reinforced
polymers with middle-end fibers under step-by-step tensile loading”, IEEE
Trans. Appl. Supercond., 23, 1603205 (2013). |
Y. Hatsukade, T. Abe, S. Tsunaki, M. Yamamoto, H. Murata, and S. Tanaka,
“Application of ultra-low field HTS-SQUID NMR/MRI to contaminant detection
in food”, IEEE Trans. Appl. Supercond., 23, 1602204 (2013). |
S. Tanaka, Y. Kitamura, Y. Uchida, Y. Hatsukade, T. Ohtani and S. Suzuki,
“Development of Metallic Contaminant Detection System using Eight-Channel
High-Tc SQUIDs”, IEEE Trans. Appl. Supercond., 23, 1600404 (2013). |
Yoshimi Hatsukade, Shingo Tsunaki, Masaaki Yamamoto, Takayuki Abe, Junichi
Hatta and Saburo Tanaka, “Feasibility study of contaminant detection for
food withULF-NMR/MRI system using HTS-SQUID”, Physica C 494, (2013) 199-202. |
Yi Zhang, Hayaki Murata, Yoshimi Hatsukade, and Saburo Tanaka, “Superparamagnetic
nanoparticle detection using second harmonic of magnetization response”,
Review of Scientific Instruments 84, 094702 (2013). |
Y. Hatsukade, Y. Shinyama, K. Yoshida, Y. Takai, M.S. Aly-Hassan, A. Nakai, H. Hamada, S. Adachi, K. Tanabe, S. Tanaka, “Nondestructive evaluation of ±45° flat-braided carbon-fiber-reinforced polymers with carbon nanofibers using HTS-SQUID gradiometer”, Physica C, Vol. 484, (2013) 195-201. |
S. Fukumoto, S. Tsunaki, T. Chigasaki, Y. Hatsukade, and S. Tanaka, “ULF-NMR system using HTS-SQUID and permanent magnet”, Physica C, Vol. 484, (2013) 202-205. (doi: 10.1016/j.physc.2012.03.014) |
S. Tanaka, Y. Uchida, Y. Kitamura, Y. Hatsukade, T. Ohtani and S. Suzuki,
“Development of High-Tc SQUID and Application to Ultra-Sensitive Contaminant
Detection System”, Journal of Superconductivity and Novel Magnetism, 26,
(2013) 845-849. (doi: 10.1007/s10948-012-1944-z) |
2012 |
S. Tanaka, Y.Kitamura, Y.Uchida, Y. Hatsukade, T. Ohtani and S. Suzuki,
“High-Tc SQUID Application for Roll to Roll Metallic Contaminant Detector”,
Progress in Superconductivity, 14(2) (2012) 82-86. |
Dan Zhang, Shohei Fukumoto, Shingo Tsunaki, Yoshimi Hatsukade, Saburo Tanaka,
“Development of signal to noise ratio of HTS-rf-SQUID for ultra-low field
NMR / MRI by 77K LC resonant circuit”, Physics Procedia 27 (2012) 348-351. |
Y. Hatsukade, Y. Shinyama, K. Yoshida, Y. Takai, M.S. Aly-Hassan, A. Nakai,
H. Hamada, S. Adachi, K. Tanabe, S. Tanaka, “Nondestructive evaluation
of ±45° flat-braided carbon-fiber-reinforced polymers with carbon nanofibers
using HTS-SQUID”, Physica C, (doi: 10.1016/j.physc.2012.03.059), (2012). |
N. Terauchi, S. Noguchi, H. Igarashi, Y. Hatsukade, and S. Tanaka, “Characteristic Analysis of Directly Coupled HTS dc-SQUID Magnetometer with Superconducting Film Magnetic-Shield Considering Josephson-Junction Resistance”, IEEE Trans. Magn., 48, No. 2, (2012) 571-574. |
Saburo Tanaka, Yoshihiro Kitamura, Yoshimi Hatsukade, Takeyoshi Ohtani
and Shuichi Suzuki, “Metallic contaminant detection system using multi-channel
high-Tc SQUIDs”, Journal of Magnetism and Magnetic Materials, 324 (2012)
3487-3490. (Invited paper) |
M. S. Aly-Hassan, Y. Takai, A. Nakai, H. Hamada, Y. Shinyama, Y. Hatsukade,
S. Tanaka, “Evaluation of Damage Mechanism of ±45°Flat Braided CFRP Composites
under Tensile Loading with Assistance of SQUID Technique”, accepted in
Composites Part A, Elsevier. |
2011 |
Y. Hatsukade, K. Hayashi, Y. Shinyama, Y. Kobayashi, S. Adachi, K. Tanabe,
S. Tanaka, “Characteristics of an HTS-SQUID gradiometer with ramp-edge
Josephson junctions and its application on Robot-based 3D-mobile compact
SQUID NDE system”, Physica C, 471 (2011) 1228-1233. |
Y. Shinyama, T. Yamaji, Y. Hatsukade, Y. Takai, M.S. Aly-Hassan, A. Nakai,
H. Hamada, S. Adachi, K. Tanabe, S. Tanaka, “Nondestructive evaluation
of braided carbon fiber composites with artificial defect using HTS-SQUID
gradiometer”, Physica C, 471 (2011) 1242-1245. |
Yoshimi Hatsukade, Makoto Takemoto, Ryuichi Kurosawa, and Saburo Tanaka,
“Integrated High-Temperature Superconductor Radio-Frequency Superconducting
Quantum interference Device Covered with Superconducting Thin Films in
Flip-Chip Configuration”, Appl. Phys. Express 4 (2011) 063101. |
S. Tanaka, T. Akai, Y. Kitamura, Y. Hatsukade, T. Otani, and S. Suzuki,
“Two-Channel HTS SQUID Gradiometer System for Detection of Metallic Contaminants
in Lithium-Ion Battery”, IEEE Trans. Appl. Supercond., 21 (2011) 424-427. |
M.Takemoto, T. Akai, Y.Kitamra, Y. Hatsukade and S. Tanaka, “HTS-rf-SQUID
Microscope for Mettalic Contaminant Detection”, IEEE Trans. Appl. Supercond.,
21 (2011) 432-435. |
S.Fukumoto, M. Hayashi, Y.Katsu, M.Suzuki, R.Morita, Y. Naganuma, Y. Hatsukade
O. Snigirev and S. Tanaka, “Liquid-State Nuclear Magnetic Resonance Measurements
for Imaging using HTS-rf-SQUID in Ultra-Low Field”, IEEE Trans. Appl. Supercond,
21 (2011) 522-525. |
O. Snigirev, M. Hayashi, S. Fukumoto, Y. Hatsukade, Y. Katsu, S. Tanaka,
“Development of Ultra Low Field Nuclear Magnetic Resonance Imaging System
Using HTS rf SQUID” , J. of Supercond. & Novel Magn., (doi: 10.1007/s10948-010-0876-8),
24 (2011) 1033-1036. |
2010 |
M Hayashi, Y Hatsukade, Y Katsu, S
Fukumoto and S Tanaka, "Development of low field nuclear magnetic resonance
system using HTS rf SQUID", J. of Phys: Conf. Ser., vol.234 (2010),
042013. |
S. Tanaka, T. Akai, M. Takemoto, Y. Hatsukade, T. Ohtani, Y. Ikeda, S.
Suzuki, S. Adachi and K. Tanabe, “Application of SQUID to magnetic contaminant
detection”, Physica C, 470 (2010) 1507-1510. |
Y. Mashiko, Y. Hatsukade , T. Yasui, H. Takenaka, Y. Todaka, M. Fukumoto
and S. Tanaka, “Evaluation of joint interface of friction stir welding
between dissimilar metals using HTS-SQUID gradiometer”, Physica C, 470
(2010), 1524-1528. |
Saburo Tanaka, Tomohiro Akai, Makoto Takemoto, Yoshimi
Hatsukade, Takeyoshi Ohtani, Yoshio Ikeda and Shuichi Suzuki, “Metallic Contaminant
Detection using HTS SQUID Gradiometer”, Chinese Physics Letters, (2010)
088503-1 - 3. |
2009 |
Y Hatsukade, K Hayashi, M Takemoto and S Tanaka, “Determination of the
robustness of an HTS SQUID magnetometer covered with a superconducting
film shield in an ac magnetic field”, Supercond. Sci. Technol. 22 (2009)
114010. |
Saburo Tanaka, T. Akai, Y. Hatsukade, T. Ohtani, Y.
Ikeda, S. Suzuki, H. and K. Tanabe, “High Tc SQUID Detection System for
Metallic Contaminant in Lithium Ion Battery”, IEEE Trans. on Magnetics, 45 No.10 (2009) 4510-4513. |
Y. Zhang, L. Q. Qiu, H. -J. Krause, H. Dong, A. I. Braginski, S. Tanaka,
A. Offenhaeusser, “Overview of Lofield NMR Measurements Using HTS
rf-SQUIDs”, Physica C, 469 (2009) 1624-1629. |
A. Miyazaki, Y. Hatsukade, H. Matsuura, T. Maeda, A. Suzuki and S. Tanaka,
“Detection of wire element breakage in power transmission line using HTS
SQUID”, Physica C, 469 (2009) 1643-1648. |
S.Tanaka, T.Akai, Y.Hatsukade, T.Otani, and S.Suzuki, “High Tc SQUID System
for Detection of Small Metallic Contaminant in industrial products”, IEEE
Trans. Appl. Supercond., 19 (2009) 882-885. |
.Longqing Q. Qiu, Yi Zhang, Hans-Joachim Krause, Alex I. Braginski, Saburo
Tanaka, and Andreas Offenhausser, “High-Performance Low-Field NMR Utilizing
a High-Tc rf SQUID”, IEEE Trans. Appl. Supercond.,19 (2009) 831-834. |
Y. Hatsukade, K. Yotsugi, S. Kanai, K. Hayashi, H. Wakana, Y. Tarutani,
K. Tanabe, and S. Tanaka, “Robot-based NDE System Using 3D-Mobile HTS-SQUID”,
IEEE Trans. Appl. Supercond.,19 (2009) 796-800. |
S. Kanai, Y. Hatsukade, K. Hayashi, K. Mori, and S. Tanaka, “Eddy-current-based
SQUID-NDE System for Copper Tubes with Laser Displacement Sensor”, IEEE
Trans. Appl. Supercond.,19 (2009) 786-790. |
Saburo Tanaka, Tomonori Akai, Yoshimi Hatsukade and Shuichi Suzuki, “High
Tc SQUID Detector for Magnetic Metallic Particles in Products”, IEICE Trans.
on Electronics, E92-C (2009) 323-326. (Invited) |
Saburo Tanaka, Yoshimi Hatsukade, Takeyoshi Ohtani, Shuichi Suzuki, “SQUID
sensor application for small metallic particle detection” Journal of Magnetism
and Magnetic Materials, 321 (2009)880-883. |
Y. Hatsukade, A. Miyazaki, H. Matsuura, T. Maeda, A. Suzuki and S. Tanaka,
“Study of Inspection of Wire Breakage in Aluminum Transmission Line using
SQUID”, NDT & E International, 43, (2009)170-173. |
Ivan Volkov, Oleg Snigirev, Alexander Maresov, Alexander Volkov, Yasukuni
Torii, and Saburo Tanaka, “SQUID-Based Relaxometric Diagnostics of Magnetic
Nanoparticles”, Solid State Phenomena, 152-153 (2009) 217-221. |
Y. Hatsukade, K. Noda, S. Masaki, S. Yoshida and S. Tanaka, “Multi-channel
high-Tc SQUID system for bio-applications”, Solid State Phenomena, 152-153
(2009) 424-428. |
廿日出好,代継浩平,金井翔, 林啓太,田中三郎,「冷凍機冷却HTS-SQUIDグラジオメータを用いたロボットアーム式モバイル非破壊検査装置の開発」,低温工学,44(2009)
54-60. |
廿日出好,宮崎敦司,松浦英樹,前田龍己,福家靖司,田中三郎,「高温超電導SQUIDを用いたアルミ撚り線の素線断線の検出」,低温工学,44(2009)
61-67.
|
2008 |
Ivan Volkov, Maxim Chukharkin, Oleg Snigirev, Alexander Volkov, Saburo
Tanaka and Coenrad Fourie, “Determination of the anisotropy constant and
saturation magnetization of magnetic nanoparticles from magnetization relaxation
curves”, Journal of Nanoparticle Research, 10 (2008) 487?497. |
Y. Hatsukade, K. Yotsugi and S. Tanaka, “Mobile HTS-SQUID NDE system with
robot arm and active shielding using fluxgate”, Physica C, 468 (2008) 1932-1935. |
SaburoTanaka, Hiroyoshi Fujita, Yoshimi Hatsukade, Takeyoshi Otani and
Shuichi Suzuki, “Metallic Contaminant Detection Systemn for Industrial
Products by High Tc SQUID Magnetic Sensor”, Modern Physics Letters B, 22
(2008) 1075-1080. |
Keita Yamazaki, Yoshimi Hatsukade, Saburo Tanaka and Akira Haga, “Shield Duct to Prevent Magnetic Field Leakage Through Openings in Double-Layered Magnetically Shielded Rooms”, IEEE Trans. on Mag., 44 No.11 (2008) 4187-4190. |
2007 |
Hideo Tsuji, Yoshio Kawashima, Hiromumi Takikawa, Saburo Tanaka, “Poly(L-lactide)/nano-
structured carbon composites: Conductivity, thermal properties, crystallization
and biodegradation”, Polymer, 48 (2007) 4213-4225. |
SaburoTanaka, H. Fujita, Y. Hatsukade, T. Otani, S. Suzuki and T. Nagaishi,
“A High Tc SQUID Micro-detector with a high performance magnetic shield
for contaminant detection in industrial products”, Supercond. Sci. Technol.,
20 (2007) S385-S388. |
藤田啓義、廿日出 好、山崎慶太、田中三郎、「有限要素法による多層磁気シールドルーム開口部の漏洩磁界に関する検討」、Journal of the
Magnetics Society of Japan, 31(2007)416-420. |
S. Tanaka, C. Toriyabe, Y. Torii, Y. Hatsukade, T. Eki, S. Katsura, N.
Ohnishi, J. Wang, S. -Y. Yang, and Y. Zhang, “Evaluation of thermo responsive
magnetic nano-particles for high-Tc SQUID bio applicaiton”, Physica C,
463-465 (2007) 1029-1033. |
Y. Hatsukade, T. Takahashi, T. Yasui, M. Tsubaki, M. Fukumoto and S. Tanaka,
“Study on nondestructive inspection using HTS-SQUID for friction stir welding
between dissimilar metals”, Physica C, 463-465 (2007) 1038-1042. |
Y. Hatsukade, K. Yotsugi, Y. Sakaguchi and S. Tanaka, “Nondestructive inspection
using HTS-SQUID on aluminum liner covered by CFRP”, Physica C, 463-465
(2007) 1043-1047. |
S. Tanaka, H. Fujita, Y. Hatsukade, T. Nagaishi, K. Nishi, H. Ota, S. Suzuki
and T. Otani “High Tc SQUID based Metallic Contaminant Detection System
For Beverage or Ground Meat”, IEEE Transactions on Applied Superconductivity,
17 (2007) 756-759. |
Y.Hatsukade, S.Okuno, K.Mori and S.Tanaka, “Eddy-Current-Based SQUID-NDE
For Detection of Surface Flaws on Copper Tubes”, IEEE Transactions on Applied
Superconductivity, 17 (2007) 780-783. |
T.Nagaishi, F.Kamitani, H.Ota, K.Nishi, K.Kuwa, T.Fujita and S.Tanaka,
“First Practical High Tc SQUID System for the Detection of Magnetic Contaminants
in Commercial Products”, IEEE Transactions on Applied Superconductivity,
17 (2007) 800-803. |
K.Nishi, Y.Hatsukade, S.Tanaka, K.Awazu and H.Horiike, “Free electron laser-induced
photocurrent in high-Tc superconducting YBa2Cu3O7-x films”, Journal of
Magnetism and magnetic materials, 310 (2007) 509-510. |
K.Nishi, Y.Hatsukade, S.Tanaka, K.Awazu and H.Horiike,
“Analysis of High-Tc Superconducting Films Using a Free Electron Laser”, Trans.
of Materials Research Society of Japan, 32 (2007) 235-237. |
S. Tanaka, H. Fujita, Y.Hatsukade, T.Nagaishi, K. Nishi, H. Ota, T.Otani,
and S. Suzuki, “High Sensitive SQUID Detection System for Metallic Contaminant
in Food or Beverage”, Chinese J. of Physics, 45 No. 2-II April (2007) 190-198. |
2006 |
SaburoTanaka, Hiroyoshi Fujita, Yoshimi Hatsukade, Tatsuoki Nagaishi, Kazuaki Nishi, Hajime Ota, Takeyoshi Otani and Shuichi Suzuki, “Detection of Metal Contaminants in Food using High Tc SQUIDs Magnetometer”, Key Engineering Materials, 321-323 (2006) 1163-1167 |
Y. Hatsukade, S. Okuno, K. Mori and S. Tanaka, “Experimental Study of Detectable Sizes of Surface Flaws on Copper Tubes Using High-Tc Superconducting Quantum Interference Device”, Jpn. J. Appl. Phys., Vol. 45, pp. L980-L983, 2006. |
SaburoTanaka, Hiroyoshi Fujita, Yoshimi Hatsukade, TatsuokiNagaishi, Kazuaki
Nishi, Hajime Ota, Takeyoshi Otani and Shuichi Suzuki, “Detectionof Metal Contaminants in Food using High Tc SQUIDs Magnetometer”, KeyEngineering Materials, 321-323(2006) 1163-1167. |
Yoshimi Hatsukade,ShinyaOkuno, Kazuaki Mori and Saburo Tanaka, “Inspection of Thin CopperHeat Exchange Tubes Using SQUID-NDE System”, Key Engineering Materialas, 321-323 (2006) 1425-1430. |
Saburo Tanaka, SoichiroIwao and Yoshimi Hatsukade “Stabilized Pulse Tube Cryocooler System with Infrared Lamp Heater for
SQUID Magnetic Sensor”, Sensors and Materials, 18 (2006) 131-137. |
Saburo Tanaka, Zarina Aspanut, Chika Toriyabe, Yoshimi Hatuskade,Shinji
Katsura, Yasuhiro Tamaki, and Shinzaburo Noguchi, “Bio Application ofHigh-Tc SQUID Magnetic Sensor”, Journal of Magnetism and Magnetic Materials, 300 (2006) e315-e319. |
I.Volkov, S. Gudoshnikov, N. Usov, A. Volkov, M. Moskvina, A. Maresov,
O.Snigirev and S. Tanaka, “SQUID-measurementsof relaxation time of Fe3O4 superparamagnetic nanoparticle
ensembles”, Journal of Magnetism and Magnetic Materials, 300 (2006)e294-e297 |
Y.Hatsukade, A. Kosugi, N. Ishizaka, S. Okuno, K. Mori and S. Tanaka, “SQUID NDEfor In-situ Inspection of Copper Heat Exchanger Tubes”, Supercond. Sci.Technol., Vol. 19 (2006) S149-S151 |
S. Tanaka, H. Fujita, Y. Hatsukade, T.Nagaishi, K. Nishi, H. Ota, T. Otani
and S. Suzuki, “A food contaminantdetection system based on high-Tc SQUIDs”, Supercond. Sci. Technol., Vol. 19 (2006) S280-S283. |
2005 |
廿日出 好,小杉 明史,森 憲亮,田中 三郎,「高温超伝導SQUIDを用いた銅製伝熱管表面の微細欠陥の非破壊検査」,低温工学,Vol.40, No.8, (2005) 319-326. |
岩尾 聡一郎,廿日出 好,田中 三郎,「赤外光温度制御装置を用いたHTS SQUID冷凍機冷却システムの検討」,低温工学, Vol.40,No.7, (2005) 300-304. |
S. Tanaka, S. Iwao and Y. Hatsukade "Pulse tube cryocooler SQUID cooling system involving an infrared
temperature controller cooled by a cryocooler", to be published in Physica C, 2005. |
Y. Hatsukade, A. Kosugi, K. Mori and S. Tanaka, “Detection of micro flaws on thin copper tubes using SQUID-NDI system based
on eddy current technique”, Physica C, 426-431 (2005) 1585-1590 |
Saburo Tanaka, Zarina Aspanut, Hirofumi Kurita, Chika Toriyabe, Yoshimi
Hatsukade and Shinji Katsura, "A DNA Detection System Based upon a High Tc SQUID and Ultra-small
Magnetic Particles", IEEE Transactions on Applied Superconductivity, 15(2005) 664-667. |
Y. Hatsukade, T. Inaba, Y. Maruno and S. Tanaka, “Mobile Cryocooler-based SQUID NDE System Utilizing Active Magnetic Shielding”, IEEE Transactions on Applied Superconductivity, 15(2005) 723-728. |
Saburo Tanaka, Shozen Kudo, Yoshimi Hatsukade, Tatsuoki Nagaishi, Kazuaki
Nishi, Hajime Ota and Shuichi Suzuki, "High-Tc SQUID Metal Detection System for Food and Pharmaceutical
Contaminants", IEICE Trans on Electronics, E88-C No.2 (2005) 175-179. (Invited Paper) |
2004 |
S. Tanaka, N. Hotta, Y. Hatsukade, T. Nagaishi, K. Nishi, H. Ota and S.
Suzuki, “High-Tc SQUID Detection System for Contaminants in Food and Drug”, Chinese J. Phys., 42(2004) 526-533 |
Y. Hatsukade, A. Kosugi, K. Mori, S. Tanaka, “Eddy Current Based SQUID-NDI System for Thin Copper Tubes”, Jpn. J. Appl. Phys., 43(2004) L1488-L1491. |
Y. Hatsukade, T. Inaba, N. Kasai, Y. Maruno, A. Ishiyama, S. Tanaka, “Detection of Deep-lying Defects in Carbon Fiber Composites Using SQUID-NDE System Cooled by a Cryocooler”, Physica C, 412-414 P2 (2004) 1484-1490. |
Saburo Tanaka, Miyuki Natsume, Masashi Uchida, Naoki Hotta, Takemasa Matsuda,
Zarina A spanut and Yoshimi Hatsukade, "Measurement of a metallic contaminant in food by high-Tc SQUID", Superconductivity Science and Technology, 17 (2004) 620-623. |
2003 |
Saburo Tanaka, Nobuaki Tanaka, Miyuki Natsume, Masashi Uchida, Miyuki Oshita, Zarina Aspanut, Toshihiko Eki, and Sachiko Yoshida, "Measurement of signal from Cardiac Cell of Rat by High-Tc SQUID", Superconductivity Science and Technology, 16 (2003) 1536-1539. |
Saburo Tanaka, Hajime Ota, Yoichi Kondo,Yasuhiro Tamaki, Shogo Kobayashi
and Shinzaburo Noguchi, "Detection of Magnetic Nanoparticles in Lymph Nodes of Rat by high
Tc SQUID" IEEE Transactions on Applied Superconductivity, 13 (2003) 377-380. |
2002 |
Saburo Tanaka, Hajime Ota Yoichi Kondo, Yukiko Matsuzawa, Yasuhiro Tamaki, and Shinzaburo Noguchi, "Sentinel Lymph Node Biopsy by a High Tc SQUID" Singapore Journal of Physics, 18 (2002) 17-22. |
Saburo Tanaka, Hajime Ota Yoichi Kondo, Yasuhiro Tamaki, Shinzaburo Noguchi
and Masakatsu Hasegawa, "Position Determine System for Lymph Node relating Breast Cancer using
a High Tc SQUID", Physica C 368 (2002) 32-36. |
S.Tanaka, T.Mizoguchi, H.Ota and Y.Kondo : "Lymph-Node detection system using a high Tc SQUID and ultra-small
particles", IEICE Transactions Electron. E85-C No.3 (2002) 687-690. |
S.Tanaka, K.Matsuda, O.Yamazaki, M.Natsume and H. Ota : "Development of High Tc Microscope with Flux guide", Superconductor Science and Technology, 15 (2002) 146-149. |
2001 |
S.Katsura, T.Yasuda, K.Hirano, A.Mizuno and S.Tanaka,: "Development of a new detection method for DNA molecules", Superconductor Science and Technology, 14 (2001) 1131-1134. |
S.Tanaka, K.Matsuda, O.Yamazaki, M.Natsume, H. Ota, T. Mizoguchi: "Properties of High Tc Superconducting Quantum Interference Device Microscope with High m-metal Needle",Jpn. J. Appl. Phys. 40 (2001) L431-433. |
S.Tanaka and A.Hirata, Y.Saito. T.Mizoguchi, Y.Tamaki, I.Sakita and M.Monden, :"Application of High Tc SQUID Magnetometer for Sentinel-Lymph Node Biopsy", IEEE Transactions on Applied Superconductivity 11 (2001) 665-668. |
2000 |
S.Tanaka, R.Shimizu, Y.Saito, K.Shin: "Development of a High-Tc SQUID Cryo-system for the Measrurement of
a Remanent Magnetic Field of Rock", IEICE Transactions E-83-C (2000) 44-48. |
1999 |
S.Tanaka, O.Yamazaki, R.Shimizu and Y Saito: "High-Tc SQUID Microscope with sample chamber", Supercond. Sci. Technol. 12 (1999) 809-812. |
S.Tanaka, O.Yamazaki, R.Shimizu and Y.Saito: "Windowless High Tc Superconducting Interference Device Microscope", Jpn. J. Appl. Phys. 38 (1999)L505-507. |
S. Tanaka and K.Inadomi: "Diagnosis of electric cable insulation by High Tc SQUID", IEEE Transactions on Applied Superconductivity 9 (1999) 4373-4376. |
1997 |
E.Dantsker, O.M.Froehlich, S.Tanaka, K.Kouznetsov, and J.Clarke: "High-Tc superconducting gradiometere with a long baseline asymmetric flux transformer", Appl. Phys. Lett. 71 (1997) 1712-1714. |
E.Dantsker, S.Tanaka, and J.Clarke: "High-Tc super conducting quantum interference devices with slots
or holes: Low 1/f noise in ambient magneticc fields", Appl. Phys. Lett. 70 (1997) 2037-2039. |
E.Dantsker, S.Tanaka, P.-A.Nilsson, R.Kleiner and J.Clarke, :"Low Excess Flux Noise in YBa2Cu3O7-x dc SQUIDs Cooled in Static Magnetic
Fields", IEEE Transactions on Applied Superconductivity 7, No.2 (1997) 2772-2775. |
1996 |
E.Dantsker, S.Tanaka, P.-A.Nilsson, R.Kleiner and J.Clarke: "Reduction of l/f Noise in High-Tc dc Superconducting QUantum Interference
Devices Cooled in an Ambient Magnetic Field", Appl. Phys. Lett. 69 (1996) 4099-4101. |
A.Adachi, K.Okajima, S.Tanaka, H.Toyoda and H.Itozaki: "A high-Tc superconducting quantum interference device with an alternating current bias DOIT and additional positive feedback", Superconductor Science & Technology 9, No.4 (1996) 100-104. |
H.Itozaki, S.Tanaka, H.Toyoda, T.Hirano, Y.Harruta, M.Nomura, T.Saijou and H.Kado: "A multi-channel high-Tc SQUID system and its application", Superconductor Science & Technology 9, No.4 (1996) 38-41. |
1995 |
A.Adachi, K.Okajima, Y.Takada, S.Tanaka, H.Itozaki, H.Toyoda and H.Kado: "High Tc Superconducting Quantum Interference Device with Additional Positive Feedback" IEICE Transactions E78-C (1995) 519-525. |
1994 |
S.Tanaka, H.Itozaki, and H.Kado: "Flux Trapping of High Tc dc SQUID", Advanced in Superconductivity VII (1994) , p1117-1120. |
田中三郎、「高温超電導SQUIDを使った生体磁気計測」, 電気学会誌、Journal of IEE of Japan, Vol. 114, No.
4, April, (1994) 233-237. (招待論文) |
S.Tanaka, H.Itozaki, H.Toyoda, N.Harada, A.Adachi, K.Okajima, and H.Kado: "Four-channel YBa2Cu3O7-y dc SQUID Magnetometer for Biomagnetic Measurement", Appl. Phys. Lett. 64 (1994) 514-517. |
H.Itozaki, S.Tanaka, T.Nagaishi, H.Kado: "Multi-channel high Tc SQUID", IEICE Transactions. 2160 E77-C (1994) 1185-1190. (Invited paper) |
1993 |
H.Itozaki, S.Tanaka, T.Nagaishi, and H.Kado: "High Tc SQUID", Advanced in Superconductivity VI (1993) p1097-1112. |
S.Tanaka, H.Itozaki, H.Toyoda, A.Adachi, K.Okajima, T.Nagaishi, and H.Kado: "Large Washer SQUID", Advanced in Superconductivity VI (1993) p1115-1118 |
S.Tanaka, H.Itozaki, and T.Nagaishi: "Properties of YBa2C3O7-y Large Washer SQUID", Jpn. J. Appl. Phys. 32 (1993) L662-L664. |
S.Tanaka, H.Kado, T.Matsuura and H.Itozaki: "Step-Edge Junction of YBCO Thin Films on MgO Substrates" IEEE Transactions on Applied Superconductivity 3 (1993) 2365-2368. |
1992 |
S.Tanaka, H.Itozaki, H.Kado, H.Toyoda, and T.Nagaishi: "YBa2Cu3O7-y SQUID with Step-Edge Junctions", Advanced in Superconductivity V (1992) p1067-1070. |
1991 |
T.Nagaishi, H.Itozaki, S.Tanaka, T.Matsuura, N.Ota, N.Fujimori and S.Yazu: "YBa2Cu3Y7-y Thin film Prepared by laser Ablation", Jpn. J. Appl. Phys. 30 (1991) L718-L720. |
S.Tanaka, H.Nakanishi, K.Higaki, T.Matsuura and H.Itozaki: "Epitaxial Growth of YBCO/MgO /YBCO Structure", IEEE Trans. Magn. 27 (1991) 1607-1611. |
1990 |
S.Tanaka, H.Nakanishi, K.Higaki T.Matsuura and H.Itozaki: "Epitaxial Growth of YBCO/MgO /YBCO/Structure", Advanced in Superconductivity III (1990) p1183-1186. (Invited paper) |
S.Tanaka, H.Nakanishi, K.Higaki and H.Itozaki: "epitaxial growth of MgO Layer on Y1Ba2Cu3O7-y Thin Film", Jpn. J. Appl. Phys. 29 (1990) 1059-1065. |
T.Ariawa, H.Itozaki, K.Harada, K.Higaki, S.Tanaka and S.Yazu: "Crystal Orientation of Y1Ba2Cu3Y7-y Thin Film Prepared by RF Magnetron Sputtering", Jpn. J. Appl. Phys. 29 (1990) L2199-L2202. |
K.Harada, S.Tanaka, H.Itozaki and S.Yazu: "Heteroepitaxial Growth of Y-Ba-Cu-O /Bi-Sr-Cu-O /Y-Ba-Cu-O", Jpn. J. Appl. Phys. 29 (1990) L1114-L1116. |
1989 |
K.Higaki, S.Tanaka, H.Itozaki, and S.Yazu: "Microwave Propagation on High-Jc YBCO Transmission Lines", Advanced in Superconductivity II (1989) p991-994. |
T.Matsuura, S.Tanaka, H.Itozaki and S.Yazu: "Resistive Behavior of High Tc Superconducting Thin Film in Magnetic Field", Proc. of the 2nd Symposium on Superconductivity (ISS'89), p687-690, November 14-17, 1989, Tsukuba, Japan. |
S.Tanaka, H.Itozaki and S.Yazu: "Preliminary Study of YBCO/Au/YBCO Josephson Junction", Advanced in Superconductivity II (1989) p1021-1024. |
H.Itozaki, K.Higaki, K.Harada, S.Tanaka, S.Yazu and K.Tada: "Properties of High Jc BiSrCaCuO and TlBaCaCuO Thin Film", Physica C 162-164 (1989) 367-368. |
S.Tanaka, and H.Itozaki: "Crystallinity and Morphology of Superconducting Thin Films Prepared by Sputtering", Jpn. J. Appl. Phys. 28 (1989) L441-L443. |
1988 |
H.Itozaki, K.Higaki, K.Harada, S.Tanaka, N.Fujimori and S.Yazu: "Properties of High Jc BiSrCaCuO Thin Film", Advanced in Superconductivity I (1988) p599-604. |
H.Itozaki, S.Tanaka, K.Higaki and S.Yazu: "High Jc Superconducting Thin Films Prepared by Sputtering", Physica C 153-155 (1988) 1155-1158. |
S.Tanaka and H.Itozaki: "High-Jc Superconducting Single Crystalline HoBaCuO Thin Films by Sputtering", Jpn. J. Appl. Phys. 27(1988) L622-L624. |