研究成果 Publications

当研究グループ所属者を下線で示しています．

査読付き学術論文

T. Fujiwara, Y. Shimizu, and J. Ishii, “Direct observation of plateau progression in fixed-point blackbodies via X-ray imaging,” Jpn. J. Appl. Phys. 63, 058003 (2024).
M. Imbe, “Single-pixel imaging interferometer based on the synthesis of spatial coherence,” Opt. Lett. 47, 5901–5904 (2022).
T. Tahara, Y. Zhang, J. Rosen, V. Anand, L. Cao, J. Wu, T. Koujin, A. Matsuda, A. Ishii, Y. Kozawa, R. Okamoto, R. Oi, T. Nobukawa, K. Choi, M. Imbe, and T.-C. Poon, “Roadmap of incoherent digital holography,” Appl. Phys. B 128, 193 (2022).
T. Irimatsugawa, C. Urano, and T. Yamada, “Characterization of programmable integrated quantum voltage noise source with variable power spectral density,” IEICE Electronics Express 19, 20210502 (2022).
Y. Shimizu, M. Imbe, K. Godo, N. Sasajima, H. Koshikawa, T. Yamaki, and K. Amemiya, “High-precision flat-plate reference infrared radiator using perfect blackbody composite with a microcavity structure,” Appl. Opt. 61, 517–522 (2022).
Y. Shimizu, H. Koshikawa, M. Imbe, T. Yamaki, K. Godo, N. Sasajima, and K. Amemiya, “Micro-cavity perfect blackbody composite with good heat transfer towards a flat-plate reference radiation source for thermal imagers,” Opt. Lett. 46, 4871–4874 (2021).
K. Amemiya, Y. Shimizu, N. Sasajima, M. Imbe, and K. Godo, “Reliability enhancement of non-contact fever screening technology (thermography, etc.) for quarantine inspection,” Measurement: Sensors 18, 100160 (2021).
A. D. W. Todd, K. Anhalt, P. Bloembergen, B. B. Khlevnoy, D. H. Lowe, G. Machin, M. Sadli, N. Sasajima, and P. Saunders, “On the uncertainties in the realization of the kelvin based on thermodynamic temperatures of high-temperature fixed-point cells,” Metrologia 58, 035007 (2021).
T. Irimatsugawa, Y. Shimizu, S. Okubo, and H. Inaba, “Cosine similarity for quantitatively evaluating the degree of change in an optical frequency comb spectra,” Opt. Express. 29, 35613–35622 (2021).
M. Imbe, “Spatial axial shearing common-path interferometer for natural light,” Appl. Opt. 59, 11332–11336 (2020).
Y. Shimizu, H. Koshikawa, M. Imbe, T. Yamaki, and K. Amemiya, “Large-area perfect blackbody sheets having aperiodic array of surface micro-cavities for high-precision thermal imager calibration,” Opt. Express 28, 22606–22616 (2020).
R. Smith, M. Ohno, Y. Miura, N. Nakada, Y. Mitsuya, H. Takahashi, T. Ikeda, C. Otani, M. Sakama, N. Matsufuji, T. Irimatsugawa, S. Kohjiro, H. Yamamori, and F. Hirayama, “Microcalorimetry of carbon ion beam for medical treatment by transition edge sensor,” J. Low Temp. Phys. 199, 1012–1017 (2020).
T. Irimatsugawa, H. Yamamori, F. Hirayama, S. Nagasawa, G. Fujii, S. Kohjiro, A. Sato, D. Fukuda, M. Hidaka, Y. Sato, M. Ohno, and H. Takahashi, “Degradation of quality factor of superconducting resonators by remaining metallic film and improved fabrication process using caldera planarization,” IEEE Trans. Appl. Supercond. 29, 1102406 (2019).
N. Sasajima, X. Lu, B. Khlevnoy, I. Grigoryeva, Y. S. Yoo, D. Otryaskin, S. Markin, T. Wang, and Y. Yamada, “Performance of WC–C peritectic and Ru–C eutectic fixed points,” Metrologia 56, 055010 (2019).
K. Amemiya, H. Koshikawa, M. Imbe, T. Yamaki, and H. Shitomi, “Perfect blackbody sheets from nano-precision microtextured elastomers for light and thermal radiation management,” J. Mater. Chem. C 7, 5418–5425 (2019).
M. Imbe, “Radiometric temperature measurement by incoherent digital holography,” Appl. Opt. 58, A82–A89 (2019).
Y. Nakashima, F. Hirayama, S. Kohjiro, H. Yamamori, S. Nagasawa, A. Sato, T. Irimatsugawa, H. Muramatsu, T. Hayashi, N. Y. Yamasaki, and K. Mitsuda, “Readout of X-ray pulses from a single-pixel TES microcalorimeter with microwave multiplexer based on SQUIDs directly coupled to resonators,” J. Low Temp. Phys. 193, 618–625 (2018).
M. Imbe, “Optical configuration with fixed transverse magnification for self-interference incoherent digital holography,” Appl. Opt. 57, 2268–2276 (2018).
Y. Shimizu, S. Okubo, A. Onae, K. M. Yamada, and H. Inaba, “Molecular gas thermometry on acetylene using dual-comb spectroscopy: analysis of rotational energy distribution,” Appl. Phys. B 124, 74 (2018).
F. Jahan, H. Ogura, M. J. Ballico, E. W. M. van der Ham, and N. Sasajima, “Design and investigation of Pd–C eutectic fixed-point cells for thermocouple calibration at NMIA,” Int. J. Thermophys. 38, 73 (2017).
D. H. Lowe, A. D. W. Todd, R. Van den Bossche, P. Bloembergen, K. Anhalt, M. Ballico, F. Bourson, S. Briaudeau, J. Campos and M. G. Cox, D. del Campo, M. R. Dury, V. Gavrilov, I. Grigoryeva, M. L. Hernanz, F. Jahan, B. Khlevnoy, V. Khromchenko, X. Lu, G. Machin, J. M. Mantilla, M. J. Martin, H. C. McEvoy, B Rougié, M. Sadli, S. G. R. Salim, N. Sasajima, D. R. Taubert, E. van der Ham, T. Wang, D. Wei, A. Whittam, B. Wilthan, D. J. Woods, J. T. Woodward, E. R. Woolliams, Y. Yamada, Y. Yamaguchi, H. W. Yoon, and Z. Yuan, “The equilibrium liquidus temperatures of rhenium–carbon, platinum–carbon and cobalt–carbon eutectic alloys,” Metrologia 54, 390–398 (2017).
E. R. Woolliams, K. Anhalt, M. Ballico, P. Bloembergen, F. Bourson, S. Briaudeau, J. Campos, M. G. Cox, D. del Campo, W. Dong, M. R. Dury, V. Gavrilov, I. Grigoryeva, M. L. Hernanz, F. Jahan, B. Khlevnoy, V. Khromchenko, D. H. Lowe, X. Lu, G. Machin, J. M. Mantilla, M. J. Martin, H. C. McEvoy, B. Rougié, M. Sadli, S. G. R. Salim, N. Sasajima, D. R. Taubert, A. D. W. Todd, R. Van den Bossche, E. van der Ham, T. Wang, A. Whittam, B. Wilthan, D. J. Woods, J. T. Woodward, Y. Yamada, Y. Yamaguchi, H. W. Yoon, and Z. Yuan, “Thermodynamic temperature assignment to the point of inflection of the melting curve of high-temperature fixed points,” Philos. Trans. A Math. Phys. Eng. Sci. 374, 20150044 (2016).
M. Imbe and Y. Yamada, “Experimental study of the furnace effect with the copper point blackbody,” Meas. Sci. Technol. 27, 125020 (2016).

国際会議発表

N. Sasajima, S. Yamazaki, and M. Yoshioka, “Uncertainty evaluation of temperature measurement of tissue mimicking material by thermographic cameras,” The 40th Symposium on UltraSonic Electronics (USE2019), 2P5-10 (2019).
M. Imbe, “Spectral emissivity measurement based on the comparison with a blackbody,” International Symposium on Imaging, Sensing, and Optical Memory 2018 (ISOM’18), Mo-E-04 (2018) [Invited].
Y. Shimizu, S. Okubo, A. Onae, and H. Inaba, “Dual-comb thermometer,” The 24th Congress of the International Commission for Optics (ICO-24), Th1A-02 (2017).

解説記事

清水祐公子, 稲場肇, 大久保章, “デュアルコム分光による非接触かつ高精度な気体の温度計測,” 光技術コンタクト 60, 39–48 (2022).
清水祐公子, 稲場肇, 大久保章, 入松川知也, “光を用いた非接触・高精度な気体温度測定—分子の運動を新たな光源「光周波数コム」ではかる—,” 自動車技術 75, 82–88 (2021).
清水祐公子, “デュアルコムによる気体温度の計測,” 電子情報通信学会誌 103, 1137–1142 (2020).
井邊真俊, “インコヒーレントホログラフィを用いた放射温度計測,” 光学 49, 230 (2020).
井邊真俊, “赤外放射率の精密測定技術の調査研究,” 計測と制御, 58, 209–216 (2019).

国内学術講演会発表

立川冴子, 木下基, 清水祐公子, “テラヘルツ分光を用いた不透明容器内の非接触温度測定,” Symposium on Frontier of Terahertz Science XI (S-FTS 2024), S-FTS Poster1 (2024).
清水祐公子, 入松川知也, 大久保章, 稲場肇, “デュアルコム分光による非接触・高精度な気体温度計測,” E05-19p-IX-01 (2023) [招待講演].
入松川知也, 清水祐公子, 大久保章, 稲場肇, “コサイン類似度を用いた光コムのスペクトル安定性評価,” 第69回応用物理学会春季学術講演会, 25a-E302-7 (2022).
入松川知也, 浦野千春, 山田隆宏, “ジョンソン雑音温度計の測定温度範囲拡張に向けたプログラマブル量子電圧雑音源の特性評価,” 第69回応用物理学会春季学術講演会, 24p-D113-4 (2022).
井邊真俊, “インコヒーレントディジタルホログラフィによる放射温度計測,” レーザー学会学術講演会第42回年次大会, S06-12p-VIII-03 (2022) [招待講演].
入松川知也, 清水祐公子, 大久保章, 柏木謙, 中村圭佑, 稲場肇, “全偏波保持デュアルコム分光のためのNALM型モード同期ファイバーレーザーの開発,” 第80回応用物理学会秋季学術講演会, 19p-E205-15 (2019).
入松川知也, 清水祐公子, 大久保章, 柏木謙, 中村圭佑, 稲場肇, “デュアルコム分光のための偏波保持型光コムの開発,” 第66回応用物理学会春季学術講演会, 9p-M135-11 (2019).
清水祐公子, 大久保章, 大苗敦, 稲場肇, “光コム温度計II,” 第78回応用物理学会秋季学術講演会, 6p-A414-9 (2017).
笹嶋尚彦, “金属–炭素共晶合金を用いた高温温度分布モニターの開発,” 第34回センシングフォーラム, 1C2-2 (2017).
中西省太, 松坂文夫, 毛利雅志, 井邊真俊, 山口祐, 笹嶋尚彦, 山田善郎, “多波長同時測定による溶接部の温度分布計測,” 第38回日本熱物性シンポジウム, C111 (2017).
井邊真俊, 山口祐, 山田善郎, 笹嶋尚彦, 中西省太, 毛利雅志, 松坂文夫, “表面状態の異なるチタン試料の分光放射率測定,” 第38回日本熱物性シンポジウム, C112 (2017).

セミナー, 展示会発表等

清水祐公子, “コロナ禍で活躍した非接触式温度計と正確さを保証する方法,” 理工系学生のための計量計測企業セミナー, 2021年12月4日 [基調講演].
笹嶋尚彦, “発熱者検知用サーモグラフィの課題と信頼性向上,” 計測標準フォーラム第18回講演会, 2021年3月8日.

産総研イベント, 出版物, プレス発表等

井邊真俊, “赤外放射率の精密測定技術に関する調査研究,” 計量標準報告 9, 481–498 (2018).
清水祐公子, 稲場肇, 「光コム」で気体の温度を測定, 産総研プレスリリース, 2017年8月23日.