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The need for a more connected, more autonomous, and smarter world drives innovation in semiconductor and microelectronic devices, which require consistent improvements in performance, energy efficiency, security, cost, and reliability. Focus must also be given to improving time-to-market and time-to-yield. However, shrinking geometries, new materials, and novel 3D architectures make these continual improvements increasingly more challenging. As a result, current 2D metrology and inspection workflows are no longer adequate for device manufacturing. Instead, high-productivity 3D analysis workflows are now essential to the fabrication process.

Overall, these 3D analysis tools and workflows give manufacturers the ability to provide high-productivity characterization of a broad range of devices. This includes equipment for ESD compliance testing, efficient pathfinding, advanced imaging and analysis, layer-by-layer device de-processing, laser ablation, and for maximizing yield in the shortest time possible.

Thermo Fisher Scientific provides the broadest portfolio of high-productivity 3D analysis workflows that accelerate development, maximize yields, and ensure the production of high-quality devices that meet current and future industry demands. Explore the pages below to learn how our applications and workflows can address your specific needs.

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40 years of semiconductor analysis innovation

With more than four decades innovating physical and electrical analysis solutions for the electronics industry, Thermo Fisher Scientific is one of the world’s premier providers of ultra-high-resolution tools for imaging and analysis at the nanoscale.

 Download our fact sheet to learn more ›

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Semiconductor Leaning Center

The content you will find contains information on new techniques and workflows to provide you with accurate and reliable insights and capabilities to assist in accelerating semiconductor design, analysis and production. Via the learning center you will be able to access application notes, videos, webinars, white papers and blogs.

Learn more

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SPARK Webinars

SPARK is a knowledge community where semiconductor professionals and industry thought leaders come together to share information on failure analysis, metrology and characterization techniques. Our webinars highlight the latest advances in semiconductor analysis, enabling you to stay at the forefront of an evolving technology and application landscape.

View webinars

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Illuminating Semiconductors

Semiconductor manufacturing stories and solutions about a more connected, more autonomous, and smarter world.

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Resources

Applications

Semiconductor Device Packaging

Semiconductor Device Packaging

Advanced semiconductor device packaging requires new integration approaches and innovation in performance, power efficiency, area, and cost. See how Thermo Scientific failure analysis workflows provide fast, precise, and accurate time-to-data for device packaging development.

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Semiconductor Pathfinding and Research

Advanced electron microscopy, focused ion beam, and associated analytical techniques for identifying viable solutions and design methods for the fabrication of high-performance semiconductor devices.

Semiconductor Failure Analysis

Semiconductor Failure Analysis

Increasingly complex semiconductor device structures result in more places for failure-inducing defects to hide. Our next-generation workflows help you localize and characterize subtle electrical issues that affect yield, performance, and reliability.

Display Module Failure Analysis

Display Module Failure Analysis

Evolving display technologies aim to improve display quality and light conversion efficiency to support applications in different industry sectors, while continuing to reduce production costs. Our process metrology, failure analysis and research and development solutions help display companies solve these challenges.

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ESD Semiconductor Qualification

Every electrostatic discharge (ESD) control plan is required to identify devices that are sensitive to ESD. We offer a complete suite of test systems to help with your device qualification requirements.

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Memory Device Metrology and Analysis

Modern data demands are driving innovation in 3D NAND, DRAM and other memory structures. Our memory analysis tools and workflows offer high-productivity characterization so that manufacturers can meet performance, latency, and capacity demands.

Power Semiconductor Device Analysis

Power Semiconductor Device Analysis

Power devices pose unique challenges for localizing faults, primarily as a result of power device architecture and layout. Our power device analysis tools and workflows quickly pinpoint fault locations at operating conditions and provide precise, high-throughput analysis for characterization of materials, interfaces and device structures.

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Yield Ramp and Metrology

We offer advanced analytical capabilities for defect analysis, metrology, and process control, designed to help increase productivity and improve yield across a range of semiconductor applications and devices.

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Physical and Chemical Characterization

Ongoing consumer demand drives the creation of smaller, faster, and cheaper electronic devices. Their production relies on high-productivity instruments and workflows that image, analyze, and characterize a broad range of semiconductor and display devices.

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Techniques

TEM Metrology

Advanced and automated TEM metrology routines deliver significantly greater precision than manual methods. This allows users to generate large amounts of statistically relevant data, with sub-angstrom-level specificity, that is free of operator bias.

Learn more ›

Semiconductor TEM Imaging and Analysis

Thermo Scientific transmission electron microscopes offer high-resolution imaging and analysis of semiconductor devices, enabling manufacturers to calibrate toolsets, diagnose failure mechanisms, and optimize overall process yields.

Learn more ›

Circuit Edit

Advanced, dedicated circuit edit and nanoprototyping solutions, which combine novel gas-delivery systems with a broad portfolio of chemistries and focused ion beam technology, offer unparalleled control and precision for semiconductor device development.

Learn more ›

SEM Metrology

Scanning electron microscopy provides accurate and reliable metrology data at nanometer scales. Automated ultra-high-resolution SEM metrology enables faster time-to-yield and time-to-market for memory, logic, and data storage applications.

Learn more ›

Semiconductor Analysis and Imaging

Thermo Fisher Scientific offers scanning electron microscopes for every function of a semiconductor lab, from general imaging tasks to advanced failure analysis techniques requiring precise voltage-contrast measurements.

Learn more ›

Optical Fault Isolation

Increasingly complex designs complicate fault and defect isolation in semiconductor manufacturing. Optical fault isolation techniques allow you to analyze the performance of electrically active devices to locate critical defects that cause device failure.

Learn more ›

Thermal Fault Isolation

Uneven distribution of local power dissipation can cause large, localized increases in temperature, leading to device failure. We offer unique solutions for thermal fault isolation with high-sensitivity lock-in infrared thermography (LIT).

Learn more ›

Sample Preparation of Semiconductor Devices

Thermo Scientific DualBeam systems provide accurate TEM sample preparation for atomic-scale analysis of semiconductor devices. Automation and advanced machine learning technologies produce high-quality samples, at the correct location, and a low cost per sample.

Learn more ›

Nanoprobing

As device complexity increases, so does the number of places defects have to hide. Nanoprobing provides the precise localization of electrical faults, which is critical for an effective transmission electron microscopy failure analysis workflow.

Learn more ›

APT Sample Preparation

Atom probe tomography (APT) provides atomic-resolution 3D compositional analysis of materials. Focused ion beam (FIB) microscopy is an essential technique for high-quality, orientation, and site-specific sample preparation for APT characterization.

Learn more ›

Semiconductor Laser Ablation

Laser ablation provides high-throughput milling of semiconductor devices for imaging and analysis with electron microscopy, while still preserving sample integrity. Access large-volume 3D data and optimize milling conditions to best suit your sample type.

Learn more ›

Device Delayering

Shrinking feature size, along with advanced design and architecture, results in increasingly challenging failure analysis for semiconductors. Damage-free delayering of devices is a critical technique for the detection of buried electrical faults and failures.

Learn more ›

ESD Compliance Testing

Electrostatic discharge (ESD) can damage small features and structures in semiconductors and integrated circuits. We offer a comprehensive suite of test equipment which verifies that your devices meet targeted ESD compliance standards.

Learn more ›

TEM Metrology

TEM Metrology

Advanced and automated TEM metrology routines deliver significantly greater precision than manual methods. This allows users to generate large amounts of statistically relevant data, with sub-angstrom-level specificity, that is free of operator bias.

Learn more ›

TEM Imaging and Analysis

Semiconductor TEM Imaging and Analysis

Thermo Scientific transmission electron microscopes offer high-resolution imaging and analysis of semiconductor devices, enabling manufacturers to calibrate toolsets, diagnose failure mechanisms, and optimize overall process yields.

Learn more ›

Circuit Edit & Nanoprototyping

Circuit Edit

Advanced, dedicated circuit edit and nanoprototyping solutions, which combine novel gas-delivery systems with a broad portfolio of chemistries and focused ion beam technology, offer unparalleled control and precision for semiconductor device development.

Learn more ›

SEM Metrology

SEM Metrology

Scanning electron microscopy provides accurate and reliable metrology data at nanometer scales. Automated ultra-high-resolution SEM metrology enables faster time-to-yield and time-to-market for memory, logic, and data storage applications.

Learn more ›

SEM Imaging and Analysis

Semiconductor Analysis and Imaging

Thermo Fisher Scientific offers scanning electron microscopes for every function of a semiconductor lab, from general imaging tasks to advanced failure analysis techniques requiring precise voltage-contrast measurements.

Learn more ›

Optical Fault Isolation

Optical Fault Isolation

Increasingly complex designs complicate fault and defect isolation in semiconductor manufacturing. Optical fault isolation techniques allow you to analyze the performance of electrically active devices to locate critical defects that cause device failure.

Learn more ›

Thermal Fault Isolation

Thermal Fault Isolation

Uneven distribution of local power dissipation can cause large, localized increases in temperature, leading to device failure. We offer unique solutions for thermal fault isolation with high-sensitivity lock-in infrared thermography (LIT).

Learn more ›

TEM Sample Preparation

Sample Preparation of Semiconductor Devices

Thermo Scientific DualBeam systems provide accurate TEM sample preparation for atomic-scale analysis of semiconductor devices. Automation and advanced machine learning technologies produce high-quality samples, at the correct location, and a low cost per sample.

Learn more ›

NanoProbing

Nanoprobing

As device complexity increases, so does the number of places defects have to hide. Nanoprobing provides the precise localization of electrical faults, which is critical for an effective transmission electron microscopy failure analysis workflow.

Learn more ›

Atom Probe Preparation

APT Sample Preparation

Atom probe tomography (APT) provides atomic-resolution 3D compositional analysis of materials. Focused ion beam (FIB) microscopy is an essential technique for high-quality, orientation, and site-specific sample preparation for APT characterization.

Learn more ›

Laser Ablation

Semiconductor Laser Ablation

Laser ablation provides high-throughput milling of semiconductor devices for imaging and analysis with electron microscopy, while still preserving sample integrity. Access large-volume 3D data and optimize milling conditions to best suit your sample type.

Learn more ›

Device Delayering

Device Delayering

Shrinking feature size, along with advanced design and architecture, results in increasingly challenging failure analysis for semiconductors. Damage-free delayering of devices is a critical technique for the detection of buried electrical faults and failures.

Learn more ›

ESD Compliance Testing

ESD Compliance Testing

Electrostatic discharge (ESD) can damage small features and structures in semiconductors and integrated circuits. We offer a comprehensive suite of test equipment which verifies that your devices meet targeted ESD compliance standards.

Learn more ›

Samples


Semiconductor Materials and Device Characterization

As semiconductor devices shrink and become more complex, new designs and structures are needed. High-productivity 3D analysis workflows can shorten device development time, maximize yield, and ensure that devices meet the future needs of the industry.

Learn more ›

Products

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Spectra 300

  • Highest-resolution structural and chemical information at the atomic level
  • Flexible high-tension range from 30-300 kV
  • Three lens condenser system

 Download datasheet

Spectra Ultra

  • New imaging and spectroscopy capabilities on the most beam sensitive materials
  • A leap forward in EDX detection with Ultra-X
  • Column designed to maintain sample integrity.

 Download datasheet

Helios 5 PFIB DualBeam

  • Gallium-free STEM and TEM sample preparation
  • Multi-modal subsurface and 3D information
  • Next-generation 2.5 μA xenon plasma FIB column

 Download datasheet

Helios 5 PXL PFIB Wafer DualBeam

  • PFIB beam current from 1pA–2.6µA
  • Faster yield learning and increased productivity
  • Automated handling of 300 mm FOUP with EFEM (GEM300 compliant

 Download datasheet

Helios 5 EXL DualBeam

  • Low-voltage performance for high sample preparation quality
  • Ultra-high-resolution immersion-lens field-emission SEM column
  • Automated handling of 300 mm FOUP with EFEM (GEM300 compliant)

 Download datasheet

Helios 5 DualBeam

  • Fully automated, high-quality, ultra-thin TEM sample preparation
  • High throughput, high resolution subsurface and 3D characterization
  • Rapid nanoprototyping capabilities

 Download datasheet

Talos F200E TEM

  • High-quality (S)TEM imaging of semiconductor and microelectronic devices
  • Precise, high-speed chemical characterization with EDS
  • Dedicated semiconductor-related applications

 Download datasheet

Metrios AX TEM

  • Automation options to support quality, consistency, metrology, and reduced OPEX
  • Leverages machine learning for superior autofunctions and feature recognition
  • Workflows for both in-situ and ex-situ lamella preparation

 Download datasheet

Thermo Scientific Scios 2 plasma focused ion beam scanning electron microscope (DualBeam)

Scios 2 DualBeam

  • Full support of magnetic and non-conductive samples
  • High throughput subsurface and 3D characterization
  • Advanced ease of use and automation capabilities

 Download datasheet

ExSolve WTP DualBeam

  • Can prepare site-specific, 20 nm thick lamellae on whole wafers up to 300 mm in diameter
  • Addresses needs requiring automated, high-throughput sampling at advanced technology nodes

Learn more

Thermo Scientific Verios 5 XHR scanning electron microscope (SEM)

Verios 5 XHR SEM

  • Monochromated SEM for sub-nanometer resolution over the full 1 keV to 30 keV energy range
  • Easy access to beam landing energies as low as 20 eV
  • Excellent stability with piezo stage as standard

 Download datasheet

Thermo Scientific Quattro E scanning electron microscope (SEM)

Quattro ESEM

  • Ultra-versatile high-resolution FEG SEM with unique environmental capability (ESEM)
  • Observe all information from all samples with simultaneous SE and BSE imaging in every mode of operation

 Download datasheet

Thermo Scientific Prisma E scanning electron microscope (SEM)

Prisma E SEM

  • Entry-level SEM with excellent image quality
  • Easy and quick sample loading and navigation for multiple samples
  • Compatible with a wide range of materials thanks to dedicated vacuum modes

 Download datasheet

Thermo Scientific Apreo 2 scanning electron microscope (SEM)

Apreo 2 SEM

  • High-performance SEM for all-round nanometer or sub-nanometer resolution
  • In-column T1 backscatter detector for sensitive, TV-rate materials contrast
  • Excellent performance at long working distance (10 mm)

 Download datasheet

VolumeScope 2 SEM

  • Isotropic 3D data from large volumes
  • High contrast and resolution in high and low vacuum modes
  • Simple switch between normal SEM use and serial block-face imaging

 Download datasheet

Phenom ProX G6 Desktop SEM

  • High performance desktop SEM with integrated EDS detector
  • Resolution <6 nm (SE) and <8 nm (BSE); magnification up to 350,000x
  • Optional SE detector

 Download datasheet

Centrios HX Circuit Edit System

  • Cutting-edge circuit editing for sub 7nm advanced semiconductor
  • Unparalleled milling precision and control with low landing energy
  • Advanced navigation and ion beam placement accuracy

 Download datasheet

Centrios CE

  • High-performance circuit editing for 14-nm and above design rules
  • Superior milling precision and control
  • Advanced navigation and ion beam placement accuracy

 Download datasheet

MK.4TE ESD and Latch-Up Test System

  • Rapid-relay-based operations—up to 2304 channels
  • Advanced device preconditioning with six separate vector drive levels
  • Fully compliant Latch-Up stimulus and device biasing

 Download datasheet

ELITE System

  • Completely non-destructive
  • Quickly identifies defective component on assembly board for accurate dispositioning
  • Localizes defect in x-y with micrometer accuracy, with depth location accurate to 20 µm

 Download datasheet

nProber IV

  • Localize transistor and BEOL faults
  • Thermal nanoprobing (-40°C to 150°C)
  • Semi-automated operation

 Download datasheet

Hyperion II System

  • Atomic Force Probing
  • Localize transistor faults
  • Integrated PicoCurrent (CAFM)

 Download datasheet

Meridian S System

  • Fault Diagnostic with Active Probe Technology
  • Static laser stimulation (SLS / OBIRCH) and photon emission options
  • Supports both micro-probing and probe card device stimulation

 Download datasheet

Meridian WS-DP System

  • High-sensitivity, low-noise, low-voltage photon emission detection with broadband DBX or InGaAs camera systems
  • Multi-wavelength laser scanning microscope for scan chain analysis, frequency mapping, transistor probing and isolation of faults

 Download datasheet

Meridian 7 System

  • Dynamic Optical Fault Isolation for 10nm node and below
  • High resolution visible and Infrared light
  • High-yield sample preparation to 5μm widely available

Learn more

Meridian IV System

  • High sensitivity extended-wavelength DBX photon emission detection
  • Standard InGaAs photon emission detection
  • Laser Scanning Microscope with multiple wavelength options

Learn more

Celestron Test System

  • Wafer and package level TLP testing
  • High current TLP pulse generator
  • Can be interfaced with semiautomatic probers
  • Intuitive software for control and report generation

 Download datasheet

Orion3 Test System

  • Charged device model testing
  • Dual high resolution color cameras
  • Test densities to less than 0.4mm pitch

 Download datasheet

Pegasus

  • Testing per the latest industry standards
  • True system level ESD 150pF/330Ω network
  • 2 pin connection via wafer probes to any device

 Download datasheet

AutoTEM 5

  • Fully automated in situ S/TEM sample preparation
  • Support of top-down, planar and inverted geometry
  • Highly configurable workflow
  • Easy to use, intuitive user interface

 Download datasheet

Thermo Scientific Auto Slice and View 4.0 serial section electron microscopy software

Auto Slice and View 4.0 Software

  • Automated serial sectioning for DualBeam
  • Multi-modal data acquisition (SEM, EDS, EBSD)
  • On-the-fly editing capabilities
  • Edge based cut placement

 Download datasheet

Thermo Scientific Maps electron microscopy software

Maps Software

  • Acquire high-resolution images over large areas
  • Easily find regions of interest
  • Automate image acquisition process
  • Correlate data from different sources

 Download datasheet

Avizo Software
Materials Science

  • Support for multi-data/multi-view, multi-channel, time series, very large data
  • Advanced multi-mode 2D/3D automatic registration
  • Artifact reduction algorithms

 Download brochure

iFast Software

  • Macro recorder for faster recipe creating
  • Runner for unattended overnight operation
  • Alignment tools: Image recognition and edge finding

Learn more

Thermo Scientific Inspect 3D tomography software

Inspect 3D Software

  • Image processing tools and filters for cross-correlation
  • Feature tracking for image alignment
  • Algebraic reconstruction technique for iterative projection comparison

 Learn more

NEXS Software

  • Auto-syncs position/magnification between NEXS and Circuit Edit system for a more seamless user experience
  • Connects to most Thermo Scientific tools used for EFA, PFA and Circuit Edit space

 Download datasheet

AutoScript 4

  • Improved reproducibility and accuracy
  • Unattended, high throughput imaging and patterning
  • Supported by Python 3.5-based scripting environment

 Download datasheet

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Electron microscopy services for
semiconductors

To ensure optimal system performance, we provide you access to a world-class network of field service experts, technical support, and certified spare parts.

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Electron microscopy support and resources