Tomonari Tanaka scite author profile

We report on sub-diffraction-limit (SDL) micro/nanofabrication via two-photon-absorption (TPA) photopolymerization. SDL spatial resolution was found possible in a threshold system, where materials responded to light excitation with a pronounced threshold behavior. The diffraction limit in this case became just a measure of focal spot size, but did not put any actual restraint to voxel dimensions. Experimentally, lateral spatial resolution down to 120 nm was realized by using high numerical-aperture optics. In addition, we proposed a profile scanning method, by which the fabrication efficiency was significantly increased. The TPA processing time, in the example given here, was reduced by 90%.

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Adaptive aberration correction in a two‐photon microscope

Neil

Juškaitis²,

Booth³

et al. 2000

Journal of Microscopy

148

117

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We demonstrate aberration correction in two‐photon microscopy. Specimen‐induced aberrations were measured with a modal wavefront sensor, implemented using a ferro‐electric liquid crystal spatial light modulator (FLCSLM). Wavefront correction was performed using the same FLCSLM. Axial scanned (xz) images of fluorescently labelled polystyrene beads using an oil immersion lens show restored sectioning ability at a depth of 28 µm in an aqueous specimen.

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Efficient Synthesis of Sugar Oxazolines from Unprotected N-Acetyl-2-amino Sugars by Using Chloroformamidinium Reagent in Water

et al. 2009

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Tomonari Tanaka

Finer features for functional microdevices

One-step conversion of unprotected sugars to β-glycosyl azides using 2-chloroimidazolinium salt in aqueous solution

Rapid sub-diffraction-limit laser micro/nanoprocessing in a threshold material system

Adaptive aberration correction in a two‐photon microscope

Efficient Synthesis of Sugar Oxazolines from Unprotected N-Acetyl-2-amino Sugars by Using Chloroformamidinium Reagent in Water

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