Sho Iwamoto / 岩本 祥

@ 國立中山大學物理系 NSYSU–Physics

[English/傳統中文]

主頁(中文版)

姓名
岩本 祥(いわもと しょう) / Sho IWAMOTO
所屬單位
助理教授, 國立中山大學物理學系 (NSYSU-Physics)
博士(理學)(東京大學,2013年)
網上
Instagram, GitHub, 私營網站(日文・英文)
聯絡
iwamoto@g-mail.nsysu.edu.twGnuPG 公鑰
國立中山大學 理SC2006‒1 辦公室

最新消息

課業討論時間

  • 112‒2學期:星期一・二 15:10–17:10,辦公室 理SC2006‒1
  • 我隨時歡迎您的光臨!(即使不在課業討論時間)

112‒2 學期課程:普通物理(二)

An introductory course to wave mechanics and electromagnetism. The goal is Maxwell’s equations (in integral form) and the nature of light.

112‒2 學期課程:物理數學與數值方法(二)

An intermediate-level mathematics course designed for physics learners. Linear algebra, Fourier analysis, special functions, and methods of numerical analysis.

112‒1 學期課程:普通物理(一)

An introductory course to University Physics. Students are expected to comprehend fundamental concepts in physics but also learn how to study physical science in university individually based on English textbooks.

我還將在第二學期材光和光電系普通物理(二)授課,原則上假設學生已經聽過我的普物(一)。

研究興趣及方向

我是理論粒子物理學(高能物理學),宇宙學和天體粒子物理學的研究人員。 我的主要興趣是“超越標準模型的粒子物理學模型”及其在對撞機實驗和天體物理觀測中的現象學。

(需要翻譯員……)

In 2012, our civilization has completed the establishment of the Standard Model of particle physics by discovering the Higgs boson at the Large Hadron Collider. It was built by many theoretical physicists and checked by various experimental collaborations. Its validity is almost certain, because almost all phenomena observed at various experiments, including collider experiments, cosmic-ray observations, and astronomical surveys, support the Standard Model.

Only a few mysteries remain in particle physics, which however are very serious. The most big mystery is the existence of dark matter and dark energy. Namely, the Standard Model can explain only 5% of the total energy in the Universe. 26% of the energy is expected to exist as materials (i.e., in a form of unknown objects), which we call dark matter, and the remaining 69% is totally unknown (something with negative density???) and just called dark energy. This cosmological mystery might be solved by particle physics model beyond the Standard Model.

Another cosmological mystery is the non-existence of antiparticles. The Standard Model predicts the Universe should have particles and antiparticles in equal amount, and then, no galaxies, no stars, and no life should be formed. This is in contradiction, which means the Universe must have some mechanism beyond the Standard Model to break the equality (“baryogenesis mechanism”). In addition, experiments have observed a few phenomena that the Standard Model cannot explain. Namely, the non-zero neutrino masses, the muon g−2 anomaly, and the strong CP problem.

Sho’s interest is to explain these mysteries (or, at least, some of them) by particle-physics models beyond the Standard Model. In particular, dark matter, baryogenesis, neutrino mass, and the muon g−2 anomaly are his primary research topics. He is an expert in supersymmetric (SUSY) theories and collider physics, and is one of the worldwide leaders in phenomenology of non-colored SUSY-particle searches at the LHC. He is highly skilled in programming, numerical calculation, statistics, and mathematics.

關於我作為研究人員的活動,看我私營網站的 Physics 部分(英文)。

雜項關鍵詞

  • hep-ph(高能物理現象学) …… 高能物理,粒子物理,宇宙學,天體粒子物理學
  • 超越標準模型的理論 …… 中微子的質量,大統一理論,超對稱性 (SUSY), μ子異常磁矩的偏差,風味物理學
  • 對撞機實驗 …… 大型強子對撞機 (LHC),超 B 加速器,未來的對撞機(ILC,CepC/SppC,FCC,……)
  • 超越標準模型的輕粒子 …… b光束傾倒實驗,國際直線對撞機 (ILC)
  • 宇宙學 …… 宇宙的熱歷史,重生學,暗物質
  • 暗物質 …… 在地下實驗中直接探測暗物質,在宇宙射線觀測中間接探測暗物質

關於我的研究的最新消息

履歴表

完整的英文履歴表以 PDF 格式提供。

學歷
2001–2004
大分縣立佐伯鶴城高等學校(日本大分縣佐伯市)
2004–2006
東京大學教養學部前期課程(理科二類)
2006–2008
東京大學理學部物理學科:理學學士(物理學)及完成了生物信息學本科教育課程
2008–2010
東京大學理學系研究科物理學系高能物理理論組):理學碩士(物理學)
2010–2013
東京大學理學系研究科物理學系高能物理理論組):博士(理學)
經歷
2010–2013
日本学術振興會特別研究員(博士生一種・東京大學理学系研究科
2013–2014
日本学術振興會特別研究員(博士後・東京大學科維理宇宙物理學與數學研究所
2014–2017
以國 以色列理工学院 (Technion) 物理學系 博士後研究員
2017–2019
義國 帕多瓦大學 (Padova) 物理學和天文學系 博士後研究員
2019–2023
匈國 羅蘭大學 (ELTE) 物理學系 博士後研究員
2023 Feb.–
國立中山大學物理學系 助理教授
曾獲得之學術補助金

以前的講座

普通物理(大一級)

普物(一)介紹古典力學,作為大學講座的入門。普物(二)討論基礎電磁學,和一些。

FeynLecture: Tools for BSM Physics (碩博士級)

A tutorial course on tools for particle physics: analytic calculation of transition amplitudes (Feynman diagrams) and Monte Carlo simulation of particle-physics models beyond the Standard Model. This course was given at Osaka University (Feb. 2012) and at Yonsei University (Oct. 2016).