3D High-Resolution Functional Property Imaging System NF30A-4L-UPIN-PG-FTR-KKS

Model

NF30A-4L-UPIN-PG-FTR-KKS

Manufacturer

Tokyo Instruments, Inc.

Specification

An inverted/upright microscope with a confocal system compatible with the visible to infrared range. Up to five lasers (lasers available as of 2025: 405 nm, 532 nm, 785 nm, 980 nm) can be used with the same optical system. The inverted microscope is equipped with a 3-axis piezo stage, and the upright microscope is equipped with a galvanometer scanner, allowing for micron-scale mapping measurements. A cryostat can be installed on the upright microscope, allowing for low-temperature measurements down to 4 K. Equipped with a visible/infrared CCD and visible/near-infrared photon detector. Can be used for Raman scattering/fluorescence spectra, photon correlation measurements, etc.

Location

Katsura Campus, Building A1 2nd floor, Room 205

Installation Year

2021

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Overview

This is a rare shared-use device equipped with a superconducting nanowire near-infrared photon detector.

Responsible department

Electrical, Electronic and Digital Science and Engineering Department

Available Users

(1) Individuals who belong to the Electronic Engineering Program (referred to as “the program”) in the Graduate School of Engineering at Kyoto University.
(2) Faculty or students of Kyoto University who do not belong to the category mentioned in the previous item.
(3) Individuals affiliated with national or local government bodies, national university corporations or university joint-use institutions, independent administrative institutions, or corporations or organizations engaged in educational or research activities.
(4) Individuals engaged in research and development activities in companies or other organizations.
(5) Other individuals deemed appropriate by the responsible manager.

Notes

・Please operate the equipment yourself.
・Please inform the administrator of your intended use in advance.
・When using the following equipment, the estimated time required for setup and cleanup is as follows:
Cryostat (liquid nitrogen): Preparation 2 hours, Cleanup 5 hours
Cryostat (liquid helium): Preparation 4 hours, Cleanup 7 hours
Near-infrared photon detector: Preparation 20 hours
・If a malfunction occurs due to negligence, the user will be responsible for the repair costs.

Usage rules

https://www.t.kyoto-u.ac.jp/ja/research/yui/naiki/20210311-denshi

Inquiries

Electrical, Electronic and Digital Science and Engineering Department
Mitsuaki Kaneko
kaneko.mitsuaki.2a*kyoto-u.ac.jp
※Please change 「*」 to 「@」 and send.

USACO/Katsura Yui/MaCBES
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