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Publications

Reviewed Papers

  1. The Simons Observatory: Cryogenic half wave plate rotation mechanism for the small aperture telescopes, Kyohei Yamada, Yuki Sakurai, et al.,Rev. Sci. Instrum. 95, 024504(pp. 1-19) (2024), DOI: 10.1063/5.0178066, OPEN ACCESS

  2. Anti-reflection coating with mullite and Duroid for large-diameter cryogenic sapphire and alumina optics, Kana Sakaguri, Yuki Sakurai, et al., Applied Optics Vol. 63, Issue 6, pp. 1618-1627 (2024), DOI: 10.1364/AO.515508

  3. The Simons Observatory: Development and Optical Evaluation of Achromatic Half-Wave Plates, Junna Sugiyama et al., J Low Temp Phys 214, pp. 173–181 (2024), DOI: 10.1007/s10909-023-03036-3, OPEN ACCESS

  4. Impact of beam far side-lobe knowledge in the presence of foregrounds for LiteBIRD, C. Leloup, Y. Sakurai, et. al. (2023)

  5. LiteBIRD Science Goals and Forecasts: Improving Sensitivity to Inflationary Gravitational Waves with Multitracer Delensing, T. Namikawa, Y. Sakurai et. al. (2023)

  6. LiteBIRD Science Goals and Forecasts: A full-sky measurement of gravitational lensing of the CMB, A. I. Lonappan, Y. Sakurai, et. al. (2023)

  7. Probing Cosmic Inflation with the LiteBIRD Cosmic Microwave Background Polarization Survey, A. J. Banday, Y. Sakurai, et. al., LiteBIRD Collaboration, Progress of Theoretical and Experimental Physics, ptac 150 (2022).

  8. Broadband Multi-layer Anti-reflection Coatings with Mullite and Duroid for Half-wave Plates and Alumina Filters for CMB Polarimetry, Kana Sakaguri, Masaya Hasegawa, Yuki Sakurai, Charles Hill, Akito Kusaka, Journal of Low Temperature Physics volume 209, (2022).

  9. Modeling TES Nonlinearity Induced by a Rotating HWP in a CMB Polarimeter,  T. Ghigna, T. Matsumura, Y. Sakurai, R. Takaku, K. Komatsu, S. Sugiyama, Y. Hoshino & N. Katayam, J Low Temp Phys (2023).

  10. Evaluation of the effect of gravity on the rotational loss of superconducting magnetic bearings for space applications Satsuki Okumura, Takemi Onoue, Doa Ahmad, Yutaka Terao, Hiroyuki Ohsaki, Yuki Sakurai, Tomotake Matsumura and Nobuhiko Katayama, J. Phys.: Conf. Ser. 2323 012039 (2022).

  11. Vibration characteristics of a continuously rotating superconducting magnetic bearing and potential influence to TES and SQUID, Shinya Sugiyama, Tommaso Ghigna, Yurika Hoshino, Nobuhiko Katayama, Satoru Katsuda, Kunimoto Komatsu, Tomotake Matsumura, Yuki Sakurai, Kosuke Sato, Ryota Takaku, Makoto Tashiro, Yukikatsu Terada for the LiteBIRD collaboration,  Journal of Low Temperature Physics (2022).

  12. Performance of a 200 mm Diameter Achromatic HWP with Laser-Ablated Sub-Wavelength Structures, R. Takaku, T. Ghigna, S. Hanany, Y. Hoshino, H. Ishino, N. Katayama, K. Komatsu, K. Konishi, M. Kuwata-Gonokami, T. Matsumura, H. Sakurai, Y. Sakurai, Q. Wen, N. Y. Yamasaki & J. Yumoto for the LiteBIRD collaboration, Journal of Low Temperature Physics (2022).

  13. Sensitivity Modeling for LiteBIRD, Takashi Tasebe, Yuki Sakurai, et. al. for the LiteBIRD collaboration, Journal of Low Temperature Physics (2022).

  14. Mechanical strength and millimeter-wave transmittance spectrum of stacked sapphire plates bonded by sodium silicate solution Takayuki Toda, Yuki Sakurai, Hirokazu Ishino, Tomotake Matsumura, Kunimoto Komatsu, Nobuhiko Katayama, Telesc. Instrum. Syst. 8(1), 014008 (2022).

  15. Large diameter millimeter-wave low-pass filter made of alumina with laser ablated anti-reflection coating, Optics Express Vol. 29, Issue 25, pp. 41745-41765 (2021), Ryota Takaku*, Yuki Sakurai, et. al.

  16. Design of a frequency-independent optic axis Pancharatnam-based achromatic half-wave plate, Jounal of Astronomical Telescopes, Instruments, and Systems, 7(3), 034005 (2021), Kunimoto Komatsu*, Yuki Sakurai, et. al.

  17. Half-meter Scale Superconducting Magnetic Bearing for Cosmic Microwave Background Polarization Experiments, J.Phys.Conf.Ser. 1590 1, 012060 (2020), Yuki Sakurai* , et. al.

  18. Updated Design of the CMB Polarization Experiment Satellite LiteBIRD, Journal of Low Temperature Physics, 199(3), 1107-1117 (2020), Hajime Sugai*, Yuki Sakurai, et. al.

  19. Small Aperture Telescopes for the Simons Observatory, Journal of Low Temperature Physics 200, 461–471(2020), Aamir M. Ali*, Yuki Sakurai, et. al.

  20. Broadband, millimeter-wave anti-reflective structures on sapphire ablated with femto-second laser, Journal of Applied Physics 128, 225302 (2020), R. Takaku*, Yuki Sakurai, et. al.

  21. Design of a testbed for the study of system interference in space CMB polarimetry, J.Low.Temp.Phys. 1993-4, 622-630 (2020), T. Ghigna*, Yuki Sakurai, et. al.

  22. Development of a contact-less cryogenic rotation mechanism employed for a polarization modulator unit in cosmic microwave background polarization experiments, J.Phys.Conf.Ser. 1293, 1, 012083 (2019), Yuki Sakurai*, et. al.

  23. Demonstration of the broadband half-wave plate using the nine-layer sapphire for the CMB polarization experiment, Journal of Astronomical Telescope,Instruments,and Systems 5(4), 044008 pp.1-14 (2019), K. Komatsu*, Yuki Sakurai, et. al.

  24. LiteBIRD: A Satellite for the Studies of B-Mode Polarization and Inflation from Cosmic Background Radiation Detection, Journal of Low Temperature Physics, Volume 194, Issue 5–6, pp 443–452 (2019), M. Hazumi*, Yuki Sakurai, et. al.

  25. The Simons Observatory: Science goals and forecasts, JCAP 1902, 056 (2019), P. Ade, Yuki Sakura, Simons Observatory Collaboration"

  26. Design and thermal characteristics of a 400 mm diameter levitating rotor in a superconducting magnetic bearing operating below at 10K for a CMB polarization experiment, IEEE Transaction on Applied Superconductivity, Vol. 28, Issue: 4, pp. 1-4 (2018), Yuki Sakurai* , et. al.

  27. A Large-Diameter Cryogenic Rotation Stage for Half-Wave Plate Polarization Modulation on the POLARBEAR-2 Experiment, Journal of Low Temperature Physics, Volume 193, pages851–859 (2018), C. A. Hill*, Yuki Sakurai, et. al.

  28. Estimation of the heat dissipation and the rotor temperature of superconducting magnetic bearing below 10K, IEEE Transactions on Applied Superconductivity, Volume: 27, Issue: 4 (2017), Yuki Sakurai*, et. al.

  29. Vibrational characteristics of a superconducting magnetic bearing employed for a prototype polarization modulator, J. Phys.: Conf. Ser. 871, 012091 (2017), Yuki Sakurai*, et. al.

  30. Numerical Analysis of Fundamental Characteristics of Superconducting Magnetic Bearings for a Polarization Modulator, Journal of Physics Conference Series, 871, 012094 (2017), Y. Terachi*, Yuki Sakurai, et. al.

  31. Thermal analysis of a prototype cryogenic polarization modulator for use in a space-borne CMB polarization experiment, IOP Conference Series: Materials Science and Engineering, Vol. 278, No. 1, p.012011 (2017), T. Iida*, Yuki Sakurai, et. al.

  32. Magnetically coupled gear based drive mechanism for contactless continuous rotation using superconducting magnetic bearing below 10 K, Physica C: Superconductivity and its Applications, Volume 530, 138-141 (2016), T. Matsumura*, Yuki Sakurai, et. al.

  33. Evidence for the Higgs-boson Yukawa coupling to tau leptons with the ATLAS detector, JHEP 04 117 (2015), G. Aad, Yuki Sakurai, ATLAS Collaboration*

  34. Identification and energy calibration of hadronically decaying tau leptons with the ATLAS experiment in pp collisions at √s = 8 TeV, Eur.Phys.J. C75 7, 303 (2015), G. Aad, Yuki Sakurai, ATLAS Collaboration*

  35. Combination of searches for the Higgs boson using the full CDF data set, Phys. Rev. D 88 052013 (2013), T. Aaltonen, Yuki Sakurai, CDF Collaboration*

  36. Search for a low mass Standard Model Higgs boson in the τ+τ− decay channel at CDF, Phys. Rev. Lett. 108, 181804 (2012), T. Aaltonen, Yuki Sakurai, CDF Collaboration*

Non-Reviewed Papers

 

  1. Testing magnetic interference between TES detectors and the telescope environment for future CMB satellite missions, Tommaso Ghigna, Thuong Duc Hoang, Takashi Hasebe, Yurika Hoshino, Nobuhiko Katayama, Kunimoto Komatsu, Adrian Lee, Tomotake Matsumura, Yuki Sakurai,* Shinya Sugiyama, Aritoki Suzuki, Christopher Raum, Ryota Takaku, Benjamin Westbrook, Proceedings Volume 12190, Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy XI; 121902N (2022).

  2. Impact of the effective thickness from anti-reflective sub-wavelength structures in achromatic half-wave plate design, Ryota Takaku, Yuki Sakura, et. al., Proceedings Volume 12190, Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy XI; 121902N (2022).

  3. Heat dissipation of rotation mechanism of polarization modulator unit for LiteBIRD low-frequency telescope, Takashi Hasebe, Yuki Sakurai, et. al., Proceedings Volume 12190, Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy XI; 121902N (2022).

  4. Testbed preparation of a small prototype polarization modulator for LiteBIRD Low-Frequency Telescope, Thuong D. Hoang, Yuki Sakurai, et. al., Proceedings Volume 12190, Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy XI; 121902N (2022).

  5. Breadboard model of polarization modulator unit based on a continuous rotating half-wave plate for the low frequency telescope of the LiteBIRD space mission, Y. Sakurai et. al., Proc. SPIE 1453, 114534E (2020).

  6. Demonstration of five-layer phase-flat achromatic half-wave plate with anti-reflective structures and superconducting magnetic bearing for CMB polarization experiments, K. Komatsu, H. Ishino, H. Kataza, K. Konishi, M. Kuwata-Gonokami, N. Katayama, S. Sugiyama, T. Matsumura, H. Sakurai, Y. Sakurai, R. Takaku, J. Yumoto, Proc. SPIE 11453, 114534I (2020).

  7. Design of the frequency independent optic axis of the Pancharatnam base achromatic half-wave plate for CMB polarization experiment K. Komatsu, H. Ishino, N. Katayama, T. Matsumura, Y. Sakurai, R. Takaku, Proc. SPIE, 11453, 114534B (2020).

  8. Evaluation of reconstructed angular error of a continuous rotating HWP for LiteBIRD, S. Sugiyama, T. Matsumura, Y. Sakurai, N. Katayama, S. Takakura, M. Tashiro, Y. Terada, K. Sato, S. Katsuda, Y. Hoshino, R. Takaku, K. Komatsu, Proc. SPIE, 11443, 114436X (2020).

  9. Demonstration of anti-reflective structures over a large area for CMB polarization experiments R. Takaku, S. Hanany, Y. Hoshino, H. Imada, H. Ishino, N. Katayama, K. Komatsu, K. Konishi, M. K. Gonokami, T. Matsumura, K. Mitsuda, H. Sakurai, Y. Sakurai, Q. Wen, N. Y. Yamasaki, K. Young, J. Yumoto, Proc. SPIE, 11453, 114531A (2020).

  10. Simons Observatory Small Aperture Telescope overview, K. Kiuchi, Y. Sakurai, et. al., Proc. SPIE, 11445, 114457L (2020).

  11. Design and development of a polarization modulator unit based on a continuous rotating half-wave plate for LiteBIRD, Y. Sakurai, et. al., Proc. SPIE, 10708, 107080E (2018).

  12. Development of a cryogenic remote sensing thermometer for CMB polarization experiments, Y. Sakurai, T. Matsumura, N. Katayama, H. Kanai, T. Iida, Proceedings of the 2018 29th IEEE International Symposium on Space Terahertz Technology (ISSTT2018), Vol. 29, pp. 170-174 (2018).

Talks

  1. HWP development for LiteBIRD low-frequency telescope, Y. Sakurai, CMB systematics and calibration focus workshop, December 2020.

  2. The world's largest superconducting magnetic bearing for cosmic microwave background polarization experiments, Y. Sakurai, P. Ashton, A. Kusaka, C. Hill, K. Kiuchi, N. Katayama, O. Tajima, the 32nd International Symposium on Superconductivity (ISS2019), Kyoto, Japan, Dec 2019.

  3. Development of space compatible polarization modulator, Y. Sakurai, B-mode from space 2019, Munich, Germany, Dec. 2019.

  4. Half-meter Scale Superconducting Magnetic Bearing for Cosmic Microwave Background Polarization Experiments, Yuki Sakurai, Peter Ashton, Akito Kusaka, Charles A. Hill, Kenji Kiuchi, Nobuhiko Katayama, Osamu Tajima, The 31th International Symposium on Superconductivity (ISS2019), Kyoto, Japan, Dec. 2019

  5. Development of a contactless cryogenic rotation mechanism employed for a polarization modulator unit in cosmic microwave background polarization experiments, Y. Sakurai, T. Matsumura, T. Iida, K. Komatsu, N. Katayama, H. Sugai, H. Ohsaki, Y. Terao, Y. Hirota and H. Enokida, The 30th International Symposium on Superconductivity (ISS2018), Tsukuba, Japan, Dec. 2018

  6. Design and development of a polarization modulator unit based on a continuous rotating half-wave plate for LiteBIRD, Y. Sakurai, T. Matsumura, N. Katayama, H. Imada, K. Komatsu, H. Kanai, R. Takaku, S. Sugiyama, T. Ghigna, T. Iida, H. Sugai, H. Ohsaki, Y. Terao, T. Shimomura, K. Konishi, H. Sakurai, J. Yumoyo, M. Maki, J. Suzuki, H. Ishino, S. Nakamura, A. Kusaka, C. Hill, M. Hazumi, H. Kataza, S. Utsunomiya, R. Yamamoto, M. Tashiro, Y. Terada, SPIE Astronomical Telescopes + Instrumentation June 2018 Austin, TX, USA

  7. Development of a cryogenic remote sensing thermometer for CMB polarization experiments, Y. Sakurai, T. Matsumura, N. Katayama, H. Kanai, T. Iida, The 2018 29 Space Terahertz Technology th IEEE International Symposium on Space Terahertz Technology (ISSTT2018), Pasadena, California, USA Mar. 2018

  8. LiteBIRD: lite satellite for the study of B-mode polarization and inflation from cosmic microwave background radiation detection, Y. Sakurai, International Symposium on  Cosmology and Particle Astrophysics CosPA 2017, Kyoto, Japan Dec. 2017

  9. Design of the prototype SMB system for the space-borne polarimeter, Y. Sakurai, T. Matsumura, N. Katayama, H. Ohsaki, Y. Terao, T. Shimomura, H. Kanai, H. Sugai, H. Imada, H. Kataza, S. Utsunomiya and R. Yamamoto, The 10th International Workshop on Processing and Applications of Superconducting (RE)BCO Large Grain Materials (PASREG 2017), Tokyo, Japan, Dec. 2017

  10. Design and thermal characteristics of a 400mm diameter levitating rotor in a superconducting magnetic bearing operating below at 10K for a CMB polarization experiment, Y. Sakurai, T. Matsumura, T. Iida, H. Kanai, N. Katayama, H. Imada, H. Ohsaki, Y. Terao, T. Shimomura, H. Sugai, H. Kataza, R. Yamamoto, S. Utsunomiya, European Conference on Applied Superconductivity (EUCAS2017), Geneva, Switzerland, Sep. 2017

  11. Vibrational characteristics of a superconducting magnetic bearing employed for a prototype polarization modulator, Y. Sakurai, T. Matsumura, H. Sugai, N. Katayama, H. Ohsaki, Y. Terao, Y. Terachi, H. Kataza, S. Utsunomiya, R. Yamamoto, 29th International Symposium on Superconductivity 2016 (ISS2016), Tokyo, Japan, Dec. 2016

  12. Estimation of the heat dissipation and the rotor temperature of superconducting magnetic bearing below 10K, Y. Sakurai, T. Matsumura, H. Kataza, S. Utsunomiya, R. Yamamoto, Applied Superconductivity Conference 2016 (ASC2016), 2016, Denver, USA, Sep. 2016

  13. The ATLAS Tau Trigger Performance during LHC Run1 and Prospects for Run2, Y. Sakurai, ATLAS Collaboration, Large Hadron Collider Physics (LHCP) 2014, New York, USA, Jun 2014

  14. Search for the Higgs boson in fermionic channels using the ATLAS detector, Yuki Sakurai, LHC/ATLAS Collaboration, Phenomenology 2014 Symposium, Pittsburgh, USA, May 2014

  15. Search for the Standard Model Higgs Boson in the H to τ+τ− to lepton-hadron and hadron- hadron Decay Modes with the ATLAS Detector, Y. Sakurai, ATLAS Collaboration, The Twelfth International Workshop on Tau-Lepton Physics (TAU2012), Nagoya, Japan, Sep. 2012

  16. Standard Model Higgs Searches at Tevatron/CDF experiment, Y. Sakurai, Tevatron/CDF Collaboration, Lake Louise Winter Institute 2012, Alberta, Canada, Feb. 2012

Posters

 

  1. Exploring the origin of the universe ~ Cosmic Microwave Background Experiment ~, Yuki Sakurai, 2nd Japan Canadian Frontier of Science (JCFoS) Symposium, March 2023, Banff, Canada,

  2. Instrumental Performance and Scientific Requirements of Polarization Modulation Unit for LiteBIRD low frequency telescope, Yuki Sakurai, Tomotake Matsumura et. al., SPIE Astronomical Telescopes + Instrumentation, 2022, Montréal, Québec, Canada.

  3. Breadboard model of polarization modulator unit based on a continuous rotating half-wave plate for the low frequency telescope of the LiteBIRD space mission, Y. Sakurai, SPIE Astronomical Telescopes + Instrumentation, December 2020

  4. Development of a cryogenic remote sensing thermometer for CMB polarization experiments, Y. Sakurai, T. Matsumura, N. Katayama, H. Kanai, T. Iida, The 2018 29 Space Terahertz Technology th IEEE International Symposium on Space Terahertz Technology (ISSTT2018), Pasadena, California, USA Mar. 2018

  5. Design and thermal characteristics of a 400mm diameter levitating rotor in a superconducting magnetic bearing operating below at 10K for a CMB polarization experiment, Y. Sakurai, T. Matsumura, T. Iida, H. Kanai, N. Katayama, H. Imada, H. Ohsaki, Y. Terao, T. Shimomura, H. Sugai, H. Kataza, R. Yamamoto, S. Utsunomiya, European Conference on Applied Superconductivity (EUCAS 2017), Geneva, Switzerland, Sep. 2017

  6. Estimation of the heat dissipation and the rotor temperature of superconducting magnetic bearing below 10K, Y. Sakurai, T. Matsumura, H. Kataza, S. Utsunomiya, R. Yamamoto, Applied Superconductivity Conference 2016 (ASC 2016), 2016, Denver, USA, Sep. 2016

  7. Search for the Standard Model Higgs Boson in the H to τ+τ− to lepton-hadron and hadron- hadron Decay Modes with the ATLAS Detector, Y. Sakurai, ATLAS Collaboration, The Twelfth International Workshop on Tau-Lepton Physics (TAU2012), Nagoya, Japan, Sep. 2012

  8. The ATLAS Tau Trigger Performance during LHC Run1 and Prospects for Run2, Y. Sakurai, ATLAS Collaboration, Large Hadron Collider Physics (LHCP) 2014, New York, USA, Jun 2014

Domestic conferences

  1. 「CMB実験の現状と今後の展望」, 桜井雄基, 高エネルギー加速器研究機構素粒子原子核研究所ワークショップ 「素粒子物理の今と未来」

  2. 「CMB実験の現状と展望」, 桜井雄基, 2023 年度早稲田大学素粒子物理学実験研究会(第 15 回)

  3. 次世代CMB偏光観測実験に用いる偏光変調技術, 桜井雄基, Upcoming CMB observations and Cosmology 2022

  4. CMB観測衛星LiteBIRDにおける連続回転半波長板に同期する系統誤差の研究桜井雄基, 松村知岳, 片山伸彦, 高久諒太, 小松国幹, 杉山真也, 星野百合香, 長谷部孝, Tommaso Ghigna, 日本物理学会 第77回年次大会(2022年)

  5. LiteBIRD低周波望遠鏡用偏光変調器の概要と開発状況,  第22回宇宙化学シンポジウム (2022年)、桜井 雄基

  6. The Simons Observatory 〜status and roles of the Japanese group〜, 桜井雄基, 「ニュートリノで拓く素粒子と宇宙」 2020年研究会, 2020年12月

  7. 次世代マイクロ波背景放射偏光観測実験 Simons Observatory の開発状況, 桜井雄基, Simons Observatory Collaboration, 日本天文学会 2020年春季大会, 筑波大学, 2020年3月

  8. LiteBIRD衛星計画のための偏光変調器の開発状況, 桜井 雄基, 松村 知岳, 片山 伸彦, 菅井 肇, 小松 国幹, 高久 諒太, 杉山 真也, 野 村 義貴, 戸田 貴之, 他LiteBIRDチーム, 第20回 宇宙科学シンポジウム,宇宙航空研究開発機構 宇宙科学研究所, P-2.06, 2020年1月

  9. 偏光変調器に搭載する超電導磁気軸受およびその周辺低温技術, 桜井雄基, 第2回超電導応用研究会シンポジウム/第3回冷凍部会

  10. Simons Observatory実験における小口径望遠鏡に搭載する低温半波長板回転式偏光変調器の開発, 桜井雄基, Simons Observatory Collaboration, 日本物理学会 2019年秋季大会, 山形大学, 2019年9月

  11. LiteBIRD衛星計画のための偏光変調器の開発, 桜井 雄基, 松村 知岳, 片山 伸彦, 小松 国幹, 杉山真也, 高久 諒太, 他LiteBIRDチーム, 第19回 宇宙科学シンポジウム,宇宙航空研究開発機構 宇宙科学研究所, P-004, 2019年1月

  12. 宇宙のインフレーションを探索する宇宙マイクロ波背景放射偏光観測実験のための偏光変調器における極低温連続回転機構の開発, 桜井 雄基,松村 知岳,片山 信彦,小松 国幹,菅井 肇,大崎 博之,寺尾 悠,廣田 幸真,榎田 壽史,石野 宏和, 第27回 MAGDAコンファレンス (MAGDA 2018),東京理科大学 葛飾キャンパス, 2018年10月

  13. LiteBIRD科学衛星のための偏光変調器の開発状況, 桜井 雄基, 松村 知岳, 片山 信彦, 今田 大皓, 小松 国幹, 石野 宏和, 金井 啓昇, 高久 諒太, 中村 正吾, 杉山 真也, Tommaso Ghigna, 菅井 肇, 大崎 博之, 寺尾 悠, 下村 俊貴, 廣田 幸真, 小西 邦昭, 櫻井 浩之, 牧 宗慶, 鈴木 純一, 片坐 宏一, 宇都宮 真, 渡邉 尚貴, 川崎 健夫, 他LiteBIRDチーム, 第18回 宇宙科学シンポジウム,宇宙航空研究開発機構 宇宙科学研究所, P-106, 2018年1月

  14. 宇宙マイクロ波背景放射偏光観測実験のための偏光変調器用超電導軸受の発熱特性, 桜井雄基,松村知岳,飯田光人,片山信彦,菅井肇,大崎博之,寺尾悠,寺地祐介,下村俊貴,今田大皓,山本亮,宇都宮真,片坐宏一, 第29回「電磁力関連のダイナミクス」シンポジウム(SEAD29),倉敷アイビースクエア, 2017年5月

  15. LiteBIRDにおける偏光変調器用連続回転機構の開発 Ⅱ, 桜井雄基, 松村知岳, 飯田光人, 片山伸彦, 菅井肇, 今田 大皓, 羽澄昌史, 山本亮, 宇都宮真, 片坐宏一, 日本物理学会 2017年第72年次大会, 大阪大学, 2017年 3月

  16. 10.LiteBIRD科学衛星のための偏光変調器の開発状況, 桜井 雄基, 松村 知岳, 今田 大皓, 菅井 肇, 片山 伸彦, 小松 国幹, 高久 諒太, 石野 宏和, 羽澄 昌史, 宇都宮 真, 山本 亮, 片坐 宏一, 大崎 博之, 寺尾 悠, 寺地 祐介, 下村 俊貴, 他LiteBIRDチーム, 第17回 宇宙科学シンポジウム,宇宙航空研究開発機構 宇宙科学研究所, 2017年1月

  17. LiteBIRDにおける偏光変調器のための連続回転機構の開発, 桜井雄基, 松村知岳, 片山伸彦, 菅井肇, 羽澄昌史, 山本亮, 宇都宮真, 片坐宏一, 日本物理学会 2016年 秋季大会, 宮崎大学, 2016年9月

  18. LHC-ATLAS 実験における H→ττ崩壊過程を用いたヒッグス粒子のCP測定, 桜井雄基, 新田龍海, 寄田浩平,日本物理学会 2015年 第70年次大会, 早稲田大学, 2015年3月

  19. LHC-ATLAS実験におけるH→tautau→lepton-hadron崩壊チャンネルを用いたヒッグス粒子の探索, 桜井雄基, 塙慶太, 中村浩二, 寄田浩平, 日本物理学会 2014年 第69年次大会, 東海大学, 2014年3月

  20. LHC-ATLAS実験におけるH→ττ→lepton-hadron崩壊チャンネル探索のための背景事象の研究, 桜井雄基, 塙慶太, 中村浩二, 寄田浩平, 日本物理学会 2013年 第68回年次大会, 広島大学, 2013年3月

  21. LHC-ATLAS実験における H→ττ→lepton-hadron 崩壊チャンネルを用いたヒッグス粒子の探索, 桜井雄基, 塙慶太, 中村浩二, 寄田浩平, 日本物理学会 2013年 秋季大会, 高知大学, 2013年9月

  22. Tevatron/CDF実験におけるτ+τ-+jets事象を用いたヒッグス粒子探索, 桜井雄基, 舩越雄二郎, 蛯名幸二、寄田浩平,日本物理学会 2011年 秋季大会, 弘前大学, 2011年9月17日

  23. ATLAS実験における実データを用いたタウ粒子トリガーの性能評価, 桜井雄基, 津野総司, 寄田浩平, 日本物理学会 2012年 秋季大会, 京都産業大学, 2012年9月

  24. Tevatron/CDF実験におけるτ+τ-+2jets事象を用いたヒッグス粒子の探索, 桜井雄基, 舩越雄二郎, 蛯名幸二, 寄田浩平, 日本物理学会 2011年 第66回 年次大会, 新潟大学, 2011年3月

  25. CDF実験におけるトップクォーク対生成事象を用いたb jet energyの測定法の研究, 桜井雄基, 寄田浩平, 日本物理学会 2010年 第65回 年次大会, 岡山大学, 2010年2月21日

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