3 論文等

主著の論文など

  1. T. Oe, T. Itatani, S. Gorwadkar, and N. Kaneko, “Development of 1 M$\Omega $ Quantum Hall Array”, IEEE Trans. Inst. Meas. 66 (6) (2017) 1475-1481.

  2. T. Oe, A. Domae, N. Sakamoto, and N. Kaneko, “Evaluation of Automatic Coaxial Mechanical Scanners for Precise Resistance and Capacitance Measurements”, IEEE Trans. Inst. Meas. 66 (6) (2017) 1560-1565.

  3. T. Oe, T. Itatani, S. Gorwadkar, and N. Kaneko, “Development of 1 M$\Omega $ Quantum Hall Array Resistance Standards”, CPEM 2016 Digest, Ottawa, Canada (2016).

  4. T. Oe, and N. Kaneko, “Evaluation of Automatic Coaxial Mechanical Scanners for Precise High-Resistance Measurement Use”, CPEM 2016 Digest, Ottawa, Canada (2016).

  5. T. Oe, C. Urano, N. Kaneko, H. Eisaki, Y. Yoshida, A. Yamamoto and K. Takenaka, “Antiperovskite Manganese Nitride Standard Resistor”, IEEE Trans. Inst. Meas. 64 (6) (2015) 1446-1450.

  6. T. Oe, C. Urano, N. Kaneko, H. Eisaki, Y. Yoshida, A. Yamamoto, and K. Takenaka, “Manganese Nitride Compound Standard Resistor ”, CPEM 2014 Digest, Rio de Janeiro, Brazil (2014) 692-693.

  7. T. Oe, K. Matsuhiro, T. Itatani, S. Gorwadkar, S. Kiryu and N. Kaneko, “New Design of Quantized Hall Resistance Array Device”, IEEE Trans. Inst. Meas. 62 (6) (2013) 1755-1759.

  8. T. Oe, C. Urano, M. Hadano, A. Ozawa, K. Takenaka and N. Kaneko, “Optimization of Mn${}-3$Ag${}_{1-x}$Cu${}_ x$N Antiperovskite Compound Fabrication for Resistance Standard”, IEEE Trans. Inst. Meas. 62 (6) (2013) 1450-1453.

  9. T. Oe, C. Urano, N. Kaneko, M. Hadano and K. Takenaka, “Standard-resistor compounds with adjustable operating temperature”, Appl. Phys. Lett. 103 (2013) 173518.

  10. T. Oe, J. Kinoshita and N. Kaneko, “Voltage Injection Type High Ohm Resistance Bridge”, CPEM 2012 Digest, Washington D.C., USA (2012) 360-361.

  11. T. Oe, C. Urano, M. Hadano, A. Ozawa, K. Takenaka and N. Kaneko, “Antiperovskite Compound Standard Resistor”, CPEM 2012 Digest, Washington D.C., USA (2012) 364–365.

  12. T. Oe, S. Gorwadkar, T. Itatani, S. Kiryu and N. Kaneko, “New design of the quantized Hall resistance array device”, CPEM 2012 Digest, Washington D.C., USA (2012) 362–363.

  13. 大江武彦, 金子晋久, “直流標準抵抗の測定における手動ブリッジと自動ブリッジの比較”, 平成23年電気学会全国大会講演論文集 1 (2011) 147.

  14. T. Oe, K. Matsuhiro, T. Itatani, S. Gorwadkar, S. Kiryu and N. Kaneko, “Development of Quantum Hall Array Resistance Standards at NMIJ”, IEEE Trans. Inst. Meas. 60 (7) (2011) 2590-2595.

  15. T. Oe, K. Matsuhiro, T. Itatani, S. Gorwadkar, S. Kiryu and N. Kaneko, “Fabrication of the 10 k$\Omega $ QHR Array device”, Elektronika 6 (2011) 47-49.

  16. T. Oe, K. Matsuhiro, T. Itatani, S. Gorwadkar, S. Kiryu and N. Kaneko, “Improvement of yield ratio of ohmic contact to GaAs/AlGaAs heterostructure by application of SiO[sub 2] protective layer”, Physica Status Solidi C 9 (2) (2011) 270-273.

  17. 大江武彦, “量子ホール効果抵抗標準の現状”, JEMIC計測サークルニュース 39 (4) (2010) 1-7.

  18. T. Oe, K. Matsuhiro, C. Urano, H. Fujino, H. Ishii, T. Itatani, S. Gorwadkar, M. Maezawa, S. Kiryu and N. Kaneko, “DEVELOPMENT OF 10 k$\Omega $ QUANTUM HALL ARRAY RESISTANCE STANDARDS AT NMIJ”, CPEM 2010 Digest, Daejeon, Korea (2010) 619-620.

  19. T. Oe, K. Matsuhiro, A. Domae, C. Urano, H. Fujino, H. Ishii, T. Itatani, S. Gorwadkar, M. Maezawa, S. Kiryu and N. Kaneko, “DEVELOPMENT OF ON-CHIP DOUBLE-SHIELDED QUANTUM HALL DEVICE FOR USE IN AC QUANTIZED HALL RESISTANCE MEASUREMENT”, CPEM 2010 Digest, Daejeon, Korea (2010) 376-377.

  20. T. Oe, N. Kaneko, C. Urano, T. Itatani, H. Ishii and S. Kiryu, “DEVELOPMENT OF QUANTUM ARRAY RESISTANCE STANDARD AT NMIJ”, CPEM 2008 Digest, Broomfield, Colorado, USA (2008) 20-21.

  21. 大江武彦, 金子晋久, “次世代直流抵抗標準の開発”, 平成20年電気学会全国大会講演論文集 1 (2008) 133.

  22. 大江武彦, “量子電気標準の現状と研究開発動向”, 産総研計量標準報告 6 (2) (2007) 119-127.

  23. 大江武彦, 赤木泰文, “モータ中性線を利用したパッシブEMIフィルタ -PWM 整流器・インバータへの適用-”, 電気学会論文誌D 127-D (1) (2007) 69-76.

  24. 大江武彦, 赤木泰文, “モータ中性線を利用したパッシブEMIフィルタ, -PWM 整流器・インバータへの適用-”, 電気学会研究会資料 SPC-05-65 (2005) 43-48.

共著の論文など

  1. Dong-Hun Chae, Wan-Seop Kim, Takehiko Oe, and Nobu-Hisa Kaneko, “Direct comparison of 1 M$\Omega $ quantized Hall array resistance and quantum Hall resistance standard”, Metrologia, 55 (5) (2018) 645-653.

  2. M Marzano, T. Oe, M. Ortolano, L. Callegaro, and N. H. Kaneko, “Error modeling of quantum Hall array resistance standards”, Metrologia, 55 (2) (2018) 167-174.

  3. M Marzano, T. Oe, M. Ortolano, L. Callegaro, and N. H. Kaneko, “MODELLAZIONE DI QUANTUM HALL ARRAY RESISTANCE STANDARDS PER LA REALIZZAZIONE DELL’OHM NEL NUOVO SISTEMA INTERNAZIONALE (Modeling Quantum Hall Array Resistance Standards for the realization of the ohm in the new Systeme Internationale) ”, Atti del I Forum Nazionale delle misure, 1 (2017) 661-668.

  4. N. Kaneko, T. Oe, T. Abe, M. Kumagai, and M. Zama, “Development of 1 $\Omega $ and 10 $\Omega $ Metal-Foil Standard Resistors”, IEEE Trans. Inst. Meas., 66 (6) (2017) 1482-1488.

  5. A. Domae, T. Oe, S. Kiryu, N. Kaneko, “Experimental Demonstration of Current Dependence Evaluation of Voltage Divider Based on Quantized Hall Resistance Voltage Divider”, IEEE Trans. Inst. Meas., 66 (6) (2017) 1237-1242.

  6. N. Kaneko, T. Oe, T. Abe, M. Kumagai, and M. Zama, “Development of 1 $\Omega $ and 10 $\Omega $ Metal Foil Standard Resistors”, CPEM 2016 Digest, Ottawa, Canada (2016).

  7. A. Domae, T. Abe, M. Kumagai, M. Zama, T. Oe and N. Kaneko, “Development and Evaluation of High-Stability Metal-Foil Resistor With a Resistance of 1 k$\Omega $”, IEEE Trans. Inst. Meas. 64 (6) (2015) 1490-1495.

  8. N. Kaneko, T. Oe, W.-S. Kim, D.-H. Chae, R. Elmquist and M. Kraft, “Transportation Effect and Basic Characteristicsof Metal-Foil Resistors Examined in an International Trilateral Pilot Study”, IEEE Trans. Inst. Meas. 64 (6) (2015) 1514-1519.

  9. A. Domae, M. Kumagai, M. Zama, T. Abe, T. Oe and N. Kaneko, “AC Characterization of a 1-k$\Omega $ Metal-Foil Resistor”, CPEM 2014 Digest (2014) 100-101.

  10. N. Kaneko, T. Oe, W.-S. Kim, D.-H. Chae, R. Elmquist and M. Kraft, “Transportation effect of Ni-Cr based metal-foil standard resistors in a trilateral comparison pilot study between KRISS, NIST, and NMIJ”, CPEM 2014 Digest (2014) 546-547.

  11. 金子晋久, 大江武彦, “量子メトロロジートライアングル”, 応用物理 83 (5) (2014) 356-362.

  12. A. Domae, T. Oe, M. Kumagai, M. Zama and N. Kaneko, “Characterization of 100-$\Omega $ Metal Foil Standard Resistors”, IEEE Trans. Inst. Meas. 62 (6) (2013) 1776-1782.

  13. N. Kaneko, A. Domae, T. Oe, J. Schurr, F. J. Ahlers and S. Kiryu, “First Attempt to Develop an On-Chip Double-Shielded QHR Device for Use in AC Measurements”, IEEE Trans. Inst. Meas. 62 (6) (2013) 1743-1748.

  14. A. Domae, M. Kumagai, M. Zama, T. Oe and N. Kaneko, “CHARACTERIZATION OF 100-$\Omega $ METAL-FOIL RESISTOR FOR AC MEASUREMENTS”, CPEM 2012 Digest (Ivd) (2012) 578-579.

  15. A. Domae, T. Oe, K. Matsuhiro, S. Kiryu and N. Kaneko, “Evaluation of a voltage divider based on quantized Hall resistance arrays”, CPEM 2012 Digest (2012) 368-369.

  16. A. Domae, T. Oe, K. Matsuhiro, S. Kiryu and N. Kaneko, “Development of a one-chip quantized Hall resistance voltage divider”, Measurement Science and Technology 23 (2012) 124008.

  17. M. Hadano, A. Ozawa, K. Takenaka, N. Kaneko, T. Oe and C. Urano, “Interplay between magnetism and charge transport in antiperovskite manganese nitrides: Extremely low temperature coefficient of resistance due to strong magnetic scattering”, J Appl. Phys. 111 (7) (2012) 07E120.

  18. N. Kaneko, T. Oe, A. Domae, T. Abe, M. Kumagai and M. Zama, “Development of High-Stability Metal-Foil Standard Resistors for DC and AC Measurements”, NCSLI Measure J. Meas. Sci. 7 (4) (2012) 34-40.

  19. N. Kaneko, T. Oe, A. Domae, T. Abe, M. Kumagai and M. Zama, “Development of High-Stability Metal-Foil Standard Resistors for DC and AC Measurements”, 2012 NCSL International Workshop & Symposium Digest.

  20. N. Kaneko, J. Schurr, F. J. Ahlers, A. Domae, T. Oe and S. Kiryu, “Investigation of on-chip double-shieled QHR device in ac regime”, CPEM 2012 Digest (2012) 193-194.

  21. M. Kumagai, N. Kaneko, T. Oe, S. Suematsu, T. Abe and M. Zama, “Development of Ultra Stable Standard Resistor”, 2012 NCSL International Workshop & Symposium Digest.

  22. C. Urano, Y. Fukuyama, N. Kaneko, M. Maruyama, T. Oe, A. Domae, K. Yamazawa, J. Tamba, H. Yamamori and S. Kiryu, “Development of thermodynamic temperature measurement technique based on quantum standards at NMIJ/AIST”, CPEM 2012 Digest (2012) 48-49.

  23. 金子晋久, 浦野千春, 丸山道隆, 大江武彦, “超伝導技術を基盤にした量子電気標準の現状と展望”, 電子情報通信学会2012年総合大会講演論文集 (2012) SS-4-7.

  24. 山田隆宏, 前澤正明, 丸山道隆, 大江武彦, 浦野千春, 金子晋久, 日高睦夫, 佐藤哲朗, 永沢秀一, 日野出憲治, “集積型極低温電流比較器の改良”, 電子情報通信学会技術研究報告 112 (262) (2012) 7-12.

  25. A. Domae, Y. Nakamura and T. Oe, “Development of Quadrature Bridge for AC QHR Measurements at Measurement Frequency at 1.592 kHz”, IEEE Trans. Inst. Meas. 60 (7) (2011) 2602-2608.

  26. M. Maezawa, C. Urano, M. Maruyama, T. Yamada, T. Oe, M. Hidaka, T. Satoh, S. Nagasawa, K. Hinode, S. Kiryu and N. Kaneko, “Design and Fabrication of Integrated Cryogenic Current Comparators”, IEEE Trans. on Appl. Supercon. 21 (3) (2011) 728-733.

  27. Y. Sakamoto, N. Kaneko, T. Oe and A. Member, “Novel 100-$\Omega $ Metal Foil Resistor”, IEEE Trans. Inst. Meas. 60 (7) (2011) 2544-2549.

  28. K. Takenaka, A. Ozawa, T. Shibayama, N. Kaneko, T. Oe and C. Urano, “Extremely low temperature coefficient of resistance in antiperovskite Mn[sub 3]Ag[sub 1-x]Cu[sub x]N”, APL 98 (2) (2011) 022103.

  29. 山田隆宏, 前澤正明, 丸山道隆, 大江武彦, 浦野千春, 金子晋久, 日高睦夫, 佐藤哲朗, 永沢秀一, 日野出憲治, “タイプII構造の集積型極低温電流比較器の設計”, 電子情報通信学会技術研究報告 110 (385) (2011) 29-34.

  30. Y. Sakamoto, N. Kaneko, T. Oe, M. Kumagai and M. Zama, “NOVEL 100 $\Omega $ METAL FOIL RESISTOR”, CPEM 2010 Digest (2010) 615-616.

  31. C. Urano, M. Maruyama, T. Oe, M. Maezawa, T. Yamada, M. Hidaka, T. Satoh, S. Nagasawa, K. Hinode, S. Kiryu and N. Kaneko, “INTEGRATED CRYOGENIC CURRENT COMPARATOR BASED ON SUPERCONDUCTOR LSI TECHNOLOGY”, CPEM 2010 Digest (2010) 763-764.

  32. 阿部隆行, 坂本泰彦, 大江武彦, 金子晋久, “直流抵抗校正用室温型電流比較ブリッジの評価”, 電気学会計測研究会講演論文集 IM-10 (2010) 45.

  33. 阿部隆行, 坂本泰彦, 大江武彦, 金子晋久, “直流抵抗校正用室温型電流比較ブリッジの評価(2)”, 平成22年電気学会全国大会講演論文集 1 (2010) 134-135.

  34. 丸山道隆, 浦野千春, 大江武彦, 前澤正明, 山田隆宏, 日高睦夫, 佐藤哲朗, 永沢秀一, 日野出憲治, 金子晋久, “集積型極低温電流比較器の提案”, 電子情報通信学会技術研究報告 SCE2010 (16) (2010) 13-18.

  35. 山田隆宏, 前澤正明, 丸山道隆, 大江武彦, 浦野千春, 金子晋久, 日高睦夫, 佐藤哲朗, 永沢秀一, 日野出憲治, 神代暁, “フリップチップ接続による磁場結合方式に基づくSQUIDの評価”, 電子情報通信学会技術研究報告 110 (235) (2010) 37-42.

  36. 阿部隆行, 坂本泰彦, 大江武彦, 金子晋久, “直流抵抗校正用室温型電流比較ブリッジの評価”, 平成21年電気学会全国大会講演論文集 1 (2009) 141–142.

  37. 堂前篤志, 大江武彦, 金子晋久, 中村安宏, 桐生昭吾, “標準器として利用可能な4端子対型標準交流抵抗器の製作とその評価”, 高速信号処理応用技術学会誌 12 (2009) 17-24.

  38. H. Akagi and T. Oe, “A Specific Filter for Eliminating High-Frequency Leakage Current From the Grounded Heat Sink in a Motor Drive With an Active Front End”, IEEE Transactions on Power Electronics 23 (2) (2008) 763-770.

  39. N. Kaneko, T. Oe, A. Domae, C. Urano, T. Itatani, H. Ishii and S. Kiryu, “DEVELOPMENT OF A VOLTAGE DIVIDER BASED ON QUANTIZED HALL RESISTANCE ARRAYS FOR A HIGH DC VOLTAGE STANDARD II”, CPEM 2008 Digest (2008) 692-693.

  40. 堂前篤志, 大江武彦, 金子晋久, 桐生昭吾, 中村安宏, “標準器として利用可能な4端子対型標準交流抵抗器の製作とその評価”, 高速信号処理応用技術学会研究会誌 (2008) 48-53.

  41. C. Urano, N. Kaneko, T. Oe, M. Maezawa, T. Itatani, S. Gorwadkar, H. Saitou, J. Maeda and S. Kiryu, “Generation of constant voltage steps by a Josephson array driven by optoelectronically generated pulses”, Physica C: Superconductivity 463-465 (2007) 1123-1126.

  42. 田村俊輔, 大江武彦, 赤木泰文, “モータ中性線を利用したパッシブEMI フィルタ-伝導性EMI の測定-”, 電気学会研究会資料 SPC-05-13 (2005) 27-32.

受賞歴

  1. N. Kaneko, T. Oe, A. Domae, T. Abe, M. Kumagai, and M. Zama, NCSLI Measure - Annual Editor’s Choice Award 2013 共同受賞
    http://www.ncsli.org/i/m/aw/ecma/c/a/a/Measure_Journal_Editors_Choice_Award.aspx?hkey=22abf761-a268-4277-aa03-1229ac80771f