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AutoScript TEM Software scripting environment

Thermo Scientific AutoScript TEM Software is a scripting environment combining a TEM-specific Python API with the Python editor. Thermo Scientific software packages for electron/ion microscopy, such as Maps Software and Tomography Software for automation and for mapping, are great for making collection of standard information easy. However, industrial automation and fundamental research often require advanced techniques for imaging and analysis that cannot be covered in the scope of general purpose software. AutoScript TEM Software provides access to the microscope controls in a Python environment to define your application tailored to the question at hand.

Automated electron microscopy workflows

AutoScript TEM Software for TEM is the customization toolkit tor transmission electron microscopes. Built around Python, it provides you the power to automate workflows and associated processing pipelines built to solve specific research questions.

AutoScript TEM Software:

  • Provides a direct link between research needs and microscope automation
  • Enables improved reproducibility and accuracy
  • Focuses time on the microscope for higher throughput
  • Empowers new scientific results

 


Key features

 

Automated electron microscopy and TEM imaging

 

Integrated IDE

An integrated development environment (IDE) makes it easy to get up and running with AutoScript TEM Software. Object browsing and syntax tools with auto completion are all included to ensure a rich user experience and rapid, consistent scripting framework.

Python

Harness the power of your microscope using the most popular scientific programming language. AutoScript TEM Software is built on Python 3.5 and includes a number of pre-installed libraries for scientific computing, data analysis, data visualization, image processing, and machine learning.


Specifications

产品表格规范样式表
System requirements
  • Thermo Scientific Spectra or Talos (S)TEM with Windows 10 operating system
Common packages
  • NumPy, SciPy, Pandas, OpenCV, SciKit-image, Matplotlib, Jupyter
Application examples
  • Acquisition of STEM images from 12 segments of Panther STEM and HAADF simultaneously
  • Tile acquisition in TEM and STEM
  • Work with apertures
  • Display of image metadata
  • Focus series acquisition
  • Acquire SmartCam image
  • Acquire rocking beam maps
Compatibility
  • Runs on Windows 10 support computer
  • Compatible with Windows 10-based Thermo Scientific transmission electron microscopes
Style Sheet for Komodo Tabs

AutoScript TEM Software microscope status and controls

  • Optics (mode, beam shift, tilt, magnification, rotation)
  • Control of Thermo Scientific Selectris Energy Filter
  • Stage (movement, position read-out) including piezo stage
  • Apertures
  • Vacuum (state), column valves controls
  • Lorentz mode support

 

AutoScript TEM Software for image acquisition

  • Acquisition (camera and detector control, single image or a sequence, simultaneous acquisition from multiple detectors or segments)
  • TEM image acquisition with Thermo Scientific Ceta, Falcon (including counting mode), and SmartCam Cameras
  • STEM detectors (insert, retract, gain, offset, individual segments)
  • STEM image acquisition with Fischione HAADF, Panther STEM, or Thermo Scientific BF/DF detector
  • Acquisition from any segment or combination of segments of Panther STEM
  • Trigger EMPAD acquisition (beta version)

 

AutoScript TEM Software auto-functions

  • TEM autofocus and astigmatism correction
  • STEM autofocus
  • AutoComa correction
  • AI processing available with Scikit-learn

 

An optional offline mode is available to provide simulation of the microscope. Scripts can be tested offline on user PCs before going to the microscope. Regular updates available with new functionality. For latest information please check: https://www.fei-software-center.com/tem-apps/tem-applications-update-page/

 

Resources

Example how to acquire STEM image from12 segments of Panther STEM and HAADF simultaneously

Example of the tile acquisition in TEM. Please also check STEM tiled acquisition script

Example of the tile acquisition in STEM
Example of the work with apertures
Display image metadata
Example of focus series acquisition
Example how to acquire STEM image from12 segments of Panther STEM and HAADF simultaneously

Example of the tile acquisition in TEM. Please also check STEM tiled acquisition script

Example of the tile acquisition in STEM
Example of the work with apertures
Display image metadata
Example of focus series acquisition

Applications

采用电子显微镜进行过程控制

采用电镜进行过程控制

现代工业需求高通量、质量卓越、通过稳健的工艺控制维持平衡。SEM扫描电镜TEM透射电镜工具结合专用的自动化软件,为过程监控和改进提供了快速、多尺度的信息。

使用电子显微镜进行质量控制和故障分析

质量控制和故障分析

质量控制和保证对于现代工业至关重要。我们提供一系列用于缺陷多尺度和多模式分析的 EM电子显微镜和光谱工具,使您可以为过程控制和改进做出可靠、明智的决策。

使用电镜进行基础材料研究

基础材料研究

越来越小的规模研究新型材料,以最大限度地控制其物理和化学特性。电子显微镜为研究人员提供了对微米到纳米级各种材料特性的重要见解。


Techniques

3D 材料表征

材料开发通常需要多尺度3D表征。DualBeam仪器可实现大体积连续切片和随后纳米级的SEM成像,可用于样品的高质量3D重建。

了解更多 ›

多尺度分析

必须在更高分辨率下分析新材料,同时保留较大的样品背景。多尺度分析允许多种成像工具和模态(如X射线microCT、DualBeam、激光PFIB、SEM和TEM)关联。

了解更多 ›

3D 材料表征

材料开发通常需要多尺度3D表征。DualBeam仪器可实现大体积连续切片和随后纳米级的SEM成像,可用于样品的高质量3D重建。

了解更多 ›

多尺度分析

必须在更高分辨率下分析新材料,同时保留较大的样品背景。多尺度分析允许多种成像工具和模态(如X射线microCT、DualBeam、激光PFIB、SEM和TEM)关联。

了解更多 ›

用于将 H2 样式更改为具有 em-h2-header 类 p 的样式表

Contact us

用于材料科学的
电子显微镜服务

为实现理想的系统性能,我们为您提供了由现场服务专家、技术支持部门和认证备件组成的全球网络支持。

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