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Observation/Analysis EquipmentCONTROL abcddddderrerereasfadfadsfasdfCONTROL abcddddderrerereasfadfadsfadsfasdf0018232932642352062762472961671381091791402112812522311021721431141841551261601519275872999021141261381402522642762742627719906132011174121131414815516269768319011101815340.250.20.150.10.0518512292633405754617875829990.250.20.150.10.052229360575647885927419120212182252322394653602220.250.20.150.10.0522633405461758601311721431841551961671091791112812232932352062472 3 4 4000.Common use, remote control, and automation of research equipment Implementation details On the 250rd floor (electron microscope room) of the University's special experiment building, there are four types of electron microscopes that correspond to different analytical purposes. -1400) ② Low-vacuum environment-controlled scanning electron microscope (SEM FEI Quanta8230) ③ Transmission electron microscope (TEM JEOL JEM-XNUMX) ④ Scanning electron microscope and electron probe microanalyzer (EPMA JEOL JXA-XNUMX) It is installed to directly observe the physical properties and chemical composition of life and substances at the nano level, and is used for education and research on ultrafine nanostructures.Aiming to share and utilize these research equipment inside and outside the university, we started implementing remote control (however, through an operator) as shown in the conceptual diagram below.Electron microscopes CONTROL abcdddddderrerereasfadfadfadsfasdf Control/video signal Video signal data transfer Microscope/camera control stand-alone computer Observation/analysis data management/transfer Remote real-time discussion, data reception, screen observation, such as personal computer Zoom, Webex mail, etc. Remote use of electron microscopes (via operator) Conceptual diagram XNUMX.Preparation of research equipment and facilities to connect to the open facility system (XNUMX) Research equipment to be registered: electron microscope (XNUMX-XNUMX)