University of Tokyo doctor's course: Imam Wahyutama

Imam S. Wahyutama, D1

D1IMG_0940(1.9)
Department of Nuclear Engineering and Management, School of Engineering, the University of Tokyo

Contact Information
E-mail: iswahyutama●atto.t.u-tokyo.ac.jp
Please replace ●with @.

Current Research Theme

Measurement of vibrational and electronic wavefunctions in CO2 via XUV pump-XUV probe scheme

Education

September 2016 – present          PhD, University of Tokyo
October 2013 – January 2016     Master, Friedrich-Schiller University Jena
July 2009 – March 2013              Bachelor, Institut Teknologi Sepuluh Nopember

Graduation Theses

Bachelor thesis
“Design and Fabrication of Microstrip Antenna with the Structure of 4 Arrays Double Biquad and 2λ Long Feedline for 2.4 Ghz WiFi Communication” (February 2013)

Master thesis 
“Table-Top Coherent Imaging – Towards Nanometer Resolution” (November 2015)

Grants and Fellowships

Abbe School of Photonics Scholarship (2013 – 2015)
University of Tokyo Fellowship (2016 – 2019)

Academic Conferences

European Conference on Lasers and Electro-Optics and the European Quantum Electronics Conference 2015.

Journals

  1.  G. K. Tadesse, R. Klas, S. Demmler, S. Hädrich, I. Wahyutama, M. Steinert, C. Spielmann, M. Zürch, T. Pertsch, A. Tünnermann, J. Limpert, and J. Rothhardt,
    “High speed and high resolution table-top nanoscale imaging”, Opt. Lett. 41(22), 5170 – 5173 (November 2016). (http://dx.doi.org/10.1364/OL.41.005170)
  2.   I. S. Wahyutama, G. K. Tadesse, A. Tünnermann, J. Limpert, and J. Rothhardt, “Influence of detector noise in holographic imaging with limited photon flux“,
    Opt. Express 24(19), 22013 – 22027 (September 2016). (https://doi.org/10.1364/OE.24.022013)
  3.  A. P. Pati, I. S. Wahyutama, and A. N. Pfeiffer, “Subcycle-resolved probe retardation in strong-field pumped dielectrics”,
    Nat. Commun. 6(7746) (July 2015). (doi:10.1038/ncomms8746)

Awards

Graduation with honor, Institut Teknologi Sepuluh Nopember (March 2013)

Message

One of the fields of expertise of our lab is developing theoretical model and simulation of ultrafast dynamics at the quantum level such as atoms, molecules, and solid-state. These quantum systems evolve extremely fast that physicists could probe it only recently following the advent of femtosecond and attosecond technologies, consequently its theoretical study is quite demanding. So, if you are math and programming geek or love fiddling with those quantum mechanical operators and wavefunctions don’t hesitate to contact us. Those inclined to the experimental side are also welcome as we sometimes also collaborate with experimental research team.