中心簡介 / 同仁通訊錄

奈米科學小組


姓名: 莊子弘( Tzu-Hung Chuang )
分機: 7350
電子郵件: chuang.th@nsrrc.org.tw
學歷:
  • 德國馬克斯普郎克研究所 / 哈勒大學物理學博士 (2013)
  • 國立台灣大學電子工程學研究所碩士 (2006)
  • 國立交通大學電子物理學系學士 (2004)
經歷:
  • 國家同步輻射研究中心科學研究組 助研究員 (2016/02迄今)
  • 日本理化學研究所SPring-8中心 博士後研究員 (2014/03 - 2016/01)
  • 德國馬克斯普郎克研究所 博士後研究員 (2013/03 - 2014/01)
  • 中央研究院原子與分子科學研究所 研究助理 (2008/01 - 2009/06)
負責實驗站:
  • TPS 27A2 軟X光光電子能譜顯微術實驗站
研究領域:
  • 低維物理
  • 表面磁學
  • 光電子能譜顯微術
代表作:
  • T.-H. Chuang*, C.-C. Hsu, W.-S. Chiu, J.-S. Jhuang, I-C. Yeh, R.-S. Chen, S. Gwo, and D.-H. Wei*, “Performance of a photoelectron momentum microscope in direct- and momentum-space imaging with ultraviolet photon source”, J. Synchrotron Rad. 31, 195 (2024)
  • H.-W. Shiu#, T.-H. Chuang#, C.-M. Cheng, C.-H. Chen, Y.-J. Hsu, and D.-H. Wei*, “When microscopy meets soft X-ray at TLS and TPS”, J. Electron Spectrosc. Relat. Phenom. 266, 147363 (2023). (#: contributed equally)
  • C.-C. Liu, Y. Huang, T.-H. Chuang*, D.-S. Lin, and D.-H. Wei*, “Imaging buried objects with the hard/soft X-ray photoemission electron microscope”, J. Appl. Phys. 130, 175307 (2021).
  • T.-H. Chuang, K.-T. Lu, C.-I Lu, Y.-J. Hsu, and D.-H. Wei, Hybridization regulated metal penetration at transition metal-organic semiconductor contacts, Applied Physics Letters 112 (8), 081601 (2018)
  • T.-H. Chuang*, C.-H. Huang, C.-I Lu, and D.-H. Wei, “Visualization of the Impact of Oxygen Adsorption on Spin Reorientation Transition of a Ferromagnetic Ultrathin Film by X-ray Photoemission Electron Microscopy”, Microscopy and Microanalysis 24 (S2), 550 (2018)
  • T.-H. Chuang, Kh. Zakeri, A. Ernst, Y. Zhang, H. J. Qin, Y. Meng, Y.-J. Chen, and J. Kirschner, “Magnetic properties and magnon excitations in Fe(001) films grown on Ir(001)”, Phys. Rev. B 89, 174404 (2014).
  • Y. Meng, Kh. Zakeri, A. Ernst, T.-H. Chuang, H. J. Qin, Y.-J. Chen, and J. Kirschner, “Direct evidence of antiferromagnetic exchange interaction in Fe(001) films: Strong magnon softening at the high-symmetry M point”, Phys. Rev. B 90, 174437 (2014).
  • Kh. Zakeri, T.-H. Chuang, A. Ernst, L. M. Sandratskii, P. Buczek, H. J. Qin, Y. Zhang, and J. Kirschner, “Direct probing of the exchange interaction at buried interfaces”, Nature Nanotech. 8, 853-858 (2013).
  • H. J. Qin, Kh. Zakeri, A. Ernst, T.-H. Chuang, Y.-J. Chen, Y. Meng, and J. Kirschner, “Magnons in ultrathin ferromagnetic films with a large perpendicular magnetic anisotropy”, Phys. Rev. B 88, 020404(R) (2013).
  • T.-H. Chuang, Kh. Zakeri, A. Ernst, L. M. Sandratskii, P. Buczek, Y. Zhang, H. J. Qin, W. Adeagbo, W. Hergert and J. Kirschner, “Impact of atomic structure on the magnon dispersion relation: A comparison between Fe(111)/Au/W(110) and Fe(110)/W(110)”, Phys. Rev. Lett. 109, 207201 (2012).
  • Y. Zhang, T.-H. Chuang, Kh. Zakeri, and J. Kirschner, ”Relaxation time of terahertz magnons excited at ferromagnetic surfaces”, Phys. Rev. Lett. 109, 087203 (2012).
  • Kh. Zakeri, Y. Zhang, T.-H. Chuang, and J. Kirschner, “Magnon lifetimes on the Fe(110) surface: The role of spin-orbit coupling”, Phys. Rev. Lett. 108, 197205 (2012).
  • Kh. Zakeri, Y. Zhang, J. Prokop, T.-H. Chuang, N. Sakr, W. X. Tang, and J. Kirschner, “Asymmetric spin-wave dispersion on Fe(110): Direct evidence of the Dzyaloshinskii-Moriya interaction”, Phys. Rev. Lett. 104, 137203 (2010).
  • T.-H. Chuang, M.-W. Tsai, Y.-T. Chang, and S.-C. Lee, “Remotely Coupled Surface Plasmons in a Metal/Insulator/Si Structure Perforated with Periodic Square Hole Arrays”, Appl. Phys. Lett. 89, 033120 (2006).
  • T.-H. Chuang, M.-W. Tsai, Y.-T. Chang, and S.-C. Lee, “Remotely Coupled Surface Plasmons in a Two-Colored Plasmonic Thermal Emitter”, Appl. Phys. Lett. 89, 173128 (2006).