HOME arrowResearch arrowResearchers List arrowNOMURA, Yutaka

Researchers detail

Assistant Professor

NOMURA, Yutaka

TEL: 0564-55-7342
FAX: 0564-53-5727
Mail: nomura_at_ims.ac.jp (Please replace the "_at_" with @ )
Affiliation laboratory:
Location: Myoudaiji, Laser Center Bldg. Room207

Department

Center for Mesoscopic Sciences

Biography

2002 B.S. University of Tokyo   
2004 M.S. University of Tokyo   
2008 Ph.D. Ludwig-Maximillians-University of Munich  
2008 Postdoctoral Researcher, Max-Planck-Institute of Quantum Optics
2008 Project Researcher, Institute for Solid State Physics, University of Tokyo
2010 JSPS Research Fellow (PD)
2010 Assistant Professor, Institute for Molecular Science
    Assistant Professor, The Graduate University for Advanced Studies
2016 JST-PRESTO Researcher, (as a concurrent post until Mar. 2020)

Awards

2015 Achievement Award, Laser Society of Japan
2016 Young Researcher Award, National Institute of Natural Science

Main research themes

1. Development of infrared femtosecond fiber laser system
2. Mid-infrared light generation through filamentation

kewords ultrashort pulse lasers, nonlinear optics, laser development, ultrafast phenomena

Selected Publications

  1. Y. Nomura, R. Horlein, P. Tzallas, B. Dromey, S. Rykovanov, Zs. Major, J. Osterhoff, S. Karsch, L. Veisz, M. Zepf, D. Charalambidis, F. Krausz, and G. D. Tsakiris, "Attosecond phase locking of harmonics emitted from laser-produced plasmas," Nature Phys. 5, 124 (2009).
  2. Y. Nomura, Y. Ito, A. Ozawa, X.-Y. Wang, C.-T. Chen, S. Shin, S.Watanabe, and Y. Kobayashi, "Coherent quasi-cw 153 nm light source at 33 MHz repetition rate," Opt. Lett. 36, 1758 (2011).
  3. Y. Nomura and T. Fuji, "Sub-50-fs pulse generation from thulium-doped ZBLAN fiber laser oscillator," Opt. Express 22, 12461 (2014).
  4. Y. Nomura and T. Fuji, "Efficient chirped-pulse amplification based on thulium-doped ZBLAN fibers," Appl. Phys. Express 10, 012703 (2017).
  5. Y. Nomura and T. Fuji, "Generation of watt-class, sub-50 fs pulses through nonlinear spectral broadening within a thulium-doped fiber amplifier," Opt. Express 25, 13691 (2017).