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Invited Speakers

Invited Presentations

More than 30 leading scientists will review the-state-of-the-art achievements in high-speed imaging and photonics. Please enjoy amazing images provided by the invited speakers.

Shinichi ADACHI (KEK, Japan) Visualizing chemical reactions in solution with femtosecond X-ray` scattering
Toshio ANDO (Kanazawa University) A Stepping Myosin” under an Ultra-fast AFM at 10 fps
Yasuhiro AWATSUJI
(Kyoto Institute of Technology)
Holographic 3D Imaging captured “Flying Light” at 220-fs resolution
David BRADLEY
(NIF, Lawrence Livermore National Laboratory, USA)
Hyper-Laser force implodes a tiny artificial sun.
Geoffrey H. CAMPBELL
(Lawrence Livermore National Laboratories)
Crystal-Amorphous Phase Transition” Captured by 20-ns TEM
Zenghu CHANG (University of Central Florida) “Monitoring motion of excited electrons in helium atoms” on its natural timescale with attosecond transient absorption.
Piet DE MOOR (IMEC) “Backside illuminated imager developed at imec”
Katsumasa FUJITA
(Osaka University)
HeLa cells monitored in the living state with a high-speed Raman microscope
Ryohei FUNATSU
(NHK: Japan Broadcasting Corporation)
“133Mpixel x 60-fps” is achieved by a single image sensor with a fine CMOS process and ultra-fast signal transmission technology
Liang GAO (University of Illinois) Catching photons on the fly by Compressed Ultrafast Photography
Keisuke GODA (University of Tokyo) Sub-picosecond Imaging of “Propagating Phonons
Shinichiro ITO (Kogakuin University) PIV reveals surface roughness reduction with micro dimples in dimples of a golf ball
Terance HILSABECK
(General Atomics)
5-ps Optical Imaging of “Fusion Plasma” with Electron Pulse-dilation
Hiroyuki IWAMOTO
(JASRI, Spring8)
A time frame of X-ray diffraction movie recorded from bumblebee flight muscle recorded at 5,000 frames/s.
Yuko MIMORI-KIYOSUE
(Riken CLST)
A rotating view of whole-cell 3D live imaging of a mitotic HeLa cell by lattice light-sheet microscopy
Harald KLEINE
(University of New South Wales)
“From hypersonic corner flows to transonic airfoils to irregular shock reflection”
Takashi KOMURO
(Saitama University)
High-speed Vision for “Robot Control, 3D Sensing, and Human-computer Interaction
Rihito KURODA
(Tohoku University)
The video camera of the highest frame rate and the sensitivity in the world captures Dielectric breakdown of MOS capacitor and other phenomena invisible in the past.
Futa MOCHIZUKI
(Shizuoka University)
“The world-fastest silicon multi-framing at 200 Mfps” A breakthrough by opto-electro-computational architecture
Yasuo NABEKAWA (RIKEN) Probing attosecond dynamics of molecules by an intense a-few-pulse attosecond pulse train
Yasushi OKADA
 (The University of Tokyo; RIKEN)
SDSRMS, the spinning disk superresolution microscope, achieved 100 frames per sec with a spatial resolution of 120 nm and 2048x2048 pixel count
Alexander RACK (ESRF, France) Crack propagation in a Si wafer captured with ultra-fast direct and diffraction hard X-ray imaging
Yuji C. SASAKI
(University of Tokyo)
Movie of Laue diffraction from the individual gold nanocrystal which is labelled to single protein.
Boleslaw STASICKI
(DLR Goettingen)
Deforming Helicopter Rotor Blade” caught by 3D Non-intrusive In-flight Measurement
Eleanor STRIDE
(University of Oxford)
Characterisation of Microbubble Dynamics for Ultrasound Mediated Drug Delivery
Haruo SUGI (Teikyo University) TEM showed “Myosin Head Power Stroke producing Muscle Contraction
Shu TAKAGI
(The University of Tokyo)
Microbubble generation in T-Junction-type Microchannel
Sigurdur T. THORODDSEN (King Abdullah University of Science and Technology) An Impacting Drop” probed with nanoscale high-speed interferometry
Ulrich TRUNK
 (DESY-Hamburg)
AGIPD: A multi Megapixel, multi Megahertz X-Ray Camera for the European XFEL
Renato TURCHETTA
(Rutherford Appleton Laboratory, UK)
Ultra-high speed, high resolution CMOS Image Sensors
Michel VERSLUIS (University of Twentes) Vibrating Micro-bubbles” taken with a 25-Mfps turbine-driven rotating mirror camera
Takayuki WATANABE
(Kyushu University)
Temperature/Motion Simultaneous Imaging of Thermal Plasma
Baoli YAO
(Xi'an Institute of Optics and Precision Mechanics, CAS)
100 fps/2048×2048 pixels/16-bits gray scale Structured Illumination Microscopy with DMD-based LED illumination