Kazutoshi Kato scite author profile

The two main trends in the progress of ultrawideband/high-frequency photodetectors (PD's), improving the bandwidth-efficiency product and obtaining a high saturation current, are reviewed. With respect to achieving large bandwidthefficiency, the limiting factors and potentials of edge-coupled (waveguide, waveguide-fed, traveling-wave, periodic-travelingwave), resonant-cavity, and refracting-facet photodiodes, as well as the avalanche photodiode are discussed. Regarding high-saturation current, the author estimated how much the space-charge effect limits the saturation current and two ways to reduce the space-charge effect are outlined. One way is to distribute the photocarriers along the edge-coupled PD's and the other is to increase the carrier velocity using a uni-traveling carrier structure. The waveguide-photodiode-based technologies that we have developed are also presented; namely the design and fabrication of a 100-GHz waveguide photodiode (WGPD), uni-traveling carrier WGPD, 60-GHz packaging, and a 20-GHz large-core WGPD for the planar lightwave circuit integration. A 50-Gb/s receiver opto-electronic integrated circuit technology based on the WGPD is also presented.

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Arrayed-waveguide grating for wavelength division multi/demultiplexer with nanometre resolution

Takahashi

Suzuki

Kato

et al. 1990

Electron. Lett. (UK)

344

108

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New Beam Scanning Model for High-Speed Operation Using KTa$_{1-x}$Nb$_{x}$O$_{3}$ Crystals

Miyazu

Imai

Toyoda

et al. 2011

Appl. Phys. Express

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We propose a new beam scanning model that is applicable to electrooptic materials with electron traps. With this model, we can achieve both high-speed operation and wide-angle scanning, because the operating speed is limited not by the electron mobility but by the frequency limit of the electrooptic effect of the materials. The voltage dependence of the scanning angle at 100 kHz using a KTa1-xNbxO3 crystal is consistent with the property predicted by the proposed model.

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Silica-based planar lightwave circuits

Himeno

Kato

Miya

1998

IEEE J. Select. Topics Quantum Electron.

209

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Improved resonance characteristics of GaAs beam resonators by epitaxially induced strain

Yamaguchi

Kato

Nakai

et al. 2008

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Micromechanical-beam resonators were fabricated using a strained GaAs film grown on relaxed In0.1Ga0.9As∕In0.1Al0.9As buffer layers. The natural frequency of the fundamental mode was increased 2.5–4 times by applying tensile strain, showing good agreement with the model calculation assuming strain of 0.35% along the beam. In addition, the Q factor of 19 000 was obtained for the best sample, which is one order of magnitude higher than that for the unstrained resonator. This technique can be widely applied for improving the performance of resonator-based micro-/nanoelectromechanical devices.

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Kazutoshi Kato

Ultrawide-band/high-frequency photodetectors

Arrayed-waveguide grating for wavelength division multi/demultiplexer with nanometre resolution

New Beam Scanning Model for High-Speed Operation Using KTa$_{1-x}$Nb$_{x}$O$_{3}$ Crystals

Silica-based planar lightwave circuits

Improved resonance characteristics of GaAs beam resonators by epitaxially induced strain

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