JEOL Asia Pte Ltd

Features

TEM-LINKAGE

The use of JEOL’s double tilt cartridge and TEM holder* facilitates linkage between the TEM and the FIB. The cartridge can be attached to the dedicated TEM specimen holder with a single touch.

The adopted OmniProbe 400* (Oxford Instruments) enables precise and smooth pick-up operations and manipulations. The operations of the OmniProbe 400* are integrated into the software for the JIB-PS500i.

CHECK-AND-GO

To precisely and efficiently prepare a TEM specimen, it is essential to quickly check the preparation progress. With its high-tilt stage and detector scheme, the JIB-PS500i allows for seamless transition from FIB milling to scanning transmission electron microscope (STEM) imaging. Fast transitions between lamella processing and STEM imaging lead to efficient specimen preparation.

AUTOMATIC PREPARATION

The JIB-PS500i automates specimen preparation using the STEMPLING2* automatic TEM specimen preparation system. This automatic system enables any operator to smoothly prepare specimens for TEM.

HIGH-RESOLUTION & HIGH-CONTRAST SEM Imaging

Stop hesitating, stop missing the end-point in milling. High quality SEM images assist you.

Signal detection system

Multiple detectors are available, including the standard SED, UED and iBED. Selecting the optimum detector makes it possible to observe sharp images of various specimens under various experimental conditions.

High resolution SEM imaging

A newly-developed super conical lens system is built into the SEM column, greatly improving the imaging performance at low accelerating voltage. This superb imaging is very useful to check the end-point milling status of lamela specimen using the SEM.

SEM imaging of FIB-prepared cross section

A very small, retractable backscattered electron detector (RBED)* can be used even with high stage tilt. For imaging of a FIB-prepared cross section, which requires both specimen surface and tilted imaging, a combination of various detectors including the SED and UED makes it suitable for cross-sectional SEM imaging.

EDS integration software*

EDS analysis functions are built into the main instrument control software, thus enabling elemental analysis of the specimen without switching the software. (This is available only when the instrument is equipped with a JEOL EDS*.)

HIGH-POWER & HIGH-QUALITY FIB processing

For the best specimen preparation, More powerful FIB processing.

Large-area, Fast FIB processing

The FIB column enables processing with a large-current Ga ion beam (up to 100 nA).

This high-current processing is particularly effective for large-area imaging and analysis.

Damage-layer removal by low-kV processing

The FIB column is set to a shorter working distance than JEOL previous models; this, in conjunction with a new power supply, has led to greatly improved processing performance at low accelerating voltages. The addition of a new control system, yields the high-performance fine milling capabilities essential for quality lamella preparation.

New Chamber & Stage Design

Highly-flexible, high tilt & large stage to meet any requirement.

Loading a large specimen

The JIB-PS500i adopts a large specimen chamber and a newly-developed 5-axis full eucentric large-motor stage, increasing the stage movement range while accommodating a large specimen. This large stage allows for processing and imaging of the entire surface of a specimen 130 mm in diameter. Furthermore, a sample with a height up to 80 mm can be loaded to the specimen chamber.

AVERT Engine to determine movement limit using 3D models

AVERT Engine is used to determine the specimen movement limit using 3D models of the specimen holder, stage and object inside the chamber. Thus in any condition, the specimen cannot interfere with the detector and objective lens.

* is optional.

JEM-F200 is a new field emission transmission electron microscope, which features higher spatial resolution and analytical performance, an easy-to-use new operation system for multi-purpose operation, a smart appearance, and various environmentally friendly, energy saving system.

Smart design

The JEM-F200 has a new, and fine appearance. It incorporates a new, intuitive user interface specifically designed for analytical electron microscopy. It also features outstanding mechanical and electrical stability, which reflects JEOL's engineering expertise accumulated over the years.

Quad-Lens condenser system

Today's electron microscopy requires to support a wide range of imaging techniques from bright field/dark field TEM to STEM that uses a variety of detectors.
The JEM-F200, with its new 4-stage probe-forming optical system, that is, Quad-Lens Condenser System, controls intensity and the convergence angle of electron beam independently, to respond to the different research requirements.

Advanced Scan system

The JEM-F200 incorporates a new scanning system, Advanced Scan System, which is capable of scanning the electron beam in the image probe forming systems. This accomplishes wide field STEM-EELS.

Pico Stage Drive

The JEM-F200 uses a pico stage drive, which is capable of driving the stage in 200 pico meter step without a piezo drive, and moving the view area with a wide dynamic range from an entire sample grid to atomic order images.

SPECPORTER (auto holder loading/unloading device)

Loading/unloading of a specimen holder has been considered to bring a human error of operation, especially for the beginners. The JEM-F200 incorporates a new device, SPECPORTER, to facilitate loading and unloading of the specimen holder. Placing a specimen holder at a given location, and activating the SPECPORTER by a single click insures safe loading and unloading of the holder.

Improved cold FEG

The JEM-F200 supports an optional cold field emission electron gun. Guaranteeing high stability, high brightness, and high energy resolution, the cold field emission electron gun enables chemical bonding analysis by EELS, and accelerates the analytical process owe to the high brightness electron beam, and by minimizes chromatic aberrations originated from the electron source energy spread enables higher resolution imaging.

Dual SDD

The JEM-F200 simultaneously supports two units of an optional high sensitivity large silicon drift detectors (SDD). The SDD, featuring enhanced sensitivity, enables speedy EDS analysis while minimizing sample damage.

Environmental friendly

The JEM-F200 incorporates an energy saving system, the ECO mode, as standard for the first time in any transmission electron microscope. The ECO mode is designed to maintain the optimum conditions of the microscope at a minimum level of energy consumption rate when it is not in operation. The ECO mode can reduce the energy consumption rate to be approximately 1/5 of that for the normal operation mode.
Its scheduling function can restore the working conditions at anytime specified by users.

The JSM-IT800 incorporates our "In-lens Schottky Plus field emission electron gun" for high resolution imaging to fast elemental mapping, and an innovative electron optical control system "Neo Engine", as well as a system of seamless GUI "SEM Center" for fast elemental mapping with a fully embedded JEOL energy dispersive X-ray spectrometer (EDS), as a common platform.

The JSM-IT800 allows for the replacement of the objective lens of the SEM as a module, offering different versions to satisfy various users requirements. With the JSM-IT800, five versions are available with different objective lenses: a hybrid lens version (HL), which is a general-purpose FE-SEM; a super hybrid lens version (SHL/SHLs, two versions with different functions), which enables higher resolution observation and analysis; and the newly-developed semi-in-lens version (i/is, two versions with different functions), which is suited for the observation of semiconductor devices.

Furthermore, the JSM-IT800 can also be equipped with a new Scintillator Backscattered Electron Detector (SBED) and a Versatile Backscattered Electron Detector (VBED). The SBED enables the acquisition of images with high responsiveness and produces sharp material contrast even at a low accelerating voltage, while the VBED can help obtain images of 3D, topography and material contrasts. Thus, the JSM-IT800 can help users to obtain information that was not obtainable and to solve problems in measurement.