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Research Summary/Topics
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PDDevelopment of an ultra-fast film type spatial light intensity/phase
modulator using nano-structured magnetophotonic crystals |
Topic 1F Development of MagnetoPhotonic Crystals and Prototype
Device |
(Toyohashi University of Technology) |
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While optimizing the magnetophotonic crystalite optical
phase modulator, we have created a prototype device which
will cover our fundamental requirements. |
Topic 2F General Purposed Ultra-Fast Film Type Spatial Light
Intensity/Phase Modulator |
(ecj Corporation) |
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By increasing the pixels needed for the Super Optical
Information Memory while also taking into account the prototype
in Topic 1, we have been able to realize the General Purposed
Ultra-Fast Film Type Spatial Light Intensity/Phase Modulator. |
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Multiferroically-driven ultra-fast spatial light modulator
with low power comsumption |
QDDevelopment of a high resolution photopolymer in a nano-structured
environment |
Topic 1F Development of a Medium for Super Optical Information
Memory |
(Memory Tech Corporation) |
|
We have been able to realize the super high density
recording media by searching for the most optimal material
needed for the design conditions. It is with this material
that we are able to get precise measurments of the new photo
polymer for recording and playback features of the holograma.
This is due to the optical phase locking system which is
comprised of a nano structure. |
Topic 2F Development
of an Ultra Low Contractile Photo Polymer Possessing a Nano
Gel Structure |
(Kyoeisha Chemical Co., Ltd.) |
|
We are able to actualize the recording material which
is used for this particular super high density recording
media by optimizing the ultralow contractile revelation
mechanism and improving on the fluorine axis based photo
polymer. |
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Ultra low reduction and high resolution of the multi-phased
holographic recording media |
RDDevelopment of the Multi-Phased Holographic Recording Technology
with Optical Phase Locking System |
(OPTWARE Corporation) |
|
The holographic data storage system, called the volumetric
collinear system, was developed by Opt-Ware and is currently
in use. On further development of this system, we were able
to come up with a completely new concept for recording and
playback, called the Optical Phase Locking System. When
recording, only data information and reference patterns
are modulated by the evenly distributed page data. So, during
playback, the many-valued gradations are detected by the
imaging sensor. Because of this, rapid improvement of recording
density and transfer rate is to be expected |
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Multi-phased Volumetric Collinear Holographic Recording System |
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