Used HITACHI S-9360 #9260378 for sale

HITACHI S-9360
ID: 9260378
Wafer Size: 8"
Vintage: 2001
System, 8" 2001 vintage.
HITACHI S-9360 is a scanning electron microscope (SEM) used for the observation and imaging of small objects and features. It produces high-resolution images of a sample by scanning it with a focused beam of electrons. It is capable of providing both high-resolution surface imaging and analytical capabilities in an efficient and cost-effective package. HITACHI S9360 is a medium-high vacuum electron microscope that operates at accelerating voltages up to 30 kV. It offers a wide range of features including secondary electron imaging, backscattered electron imaging, and energy dispersive X-ray spectroscopy (EDX). This allows for the analysis and imaging of wide varieties of materials in both the biological and inorganic realm. The microscope also features a low-loss signal-imaging path that enables quantitative analysis with high precision and accuracy. S 9360 offers automatic sample exchange and a large chamber space with a maximum sample size of 200mm. The sample chamber is fully enclosed and is easy to clean, with no external component required for sample loading. The microscope is equipped with a user-friendly unified software to provide a comprehensive solution for X-ray energy spectra analysis and image processing. S9360 utilizes an electromagnetic objective lens to focus the electron beam with a variable raster size up to 30 nm resolution. The microscope offers advanced control software for optimized imaging parameters such as acceleration voltage, brightness, contrast, and focus. It also includes an advanced stage controller for precise sample movements. S-9360 also features an integrated current-limiting system to reduce non-productive sample irradiation. An optional low-noise analog current amplifier enables high-speed scanning for users who need to image features at higher speeds. Overall, HITACHI S 9360 is a powerful yet cost-effective scanning electron microscope for a variety of applications across multiple disciplines. Its combination of high performance, imaging flexibility, wide range of capabilities, and intuitive software make it user-friendly and efficient to use. More importantly, the system is designed for advanced research, offering users reliable results and increased knowledge.
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