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DualBeam Microscopes
Helios 5 PXL PFIB Wafer DualBeam
PFIB SEM for in-line metrology and process monitoring of advanced 3D NAND and DRAM devices.
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The Thermo Scientific Helios 5 PXL Wafer DualBeam is a plasma focused ion beam scanning electron microscope (PFIB SEM) that redefines the standard for high-aspect-ratio through-stack metrology and structural verification. It features high-performance in-line metrology and process monitoring to quickly provide critical insights for process development and manufacturing engineers.
Designed to meet the in-line metrology and process control requirements of the fab, the Helios 5 PXL Wafer DualBeam significantly reduces time to data and enables the wafer to be returned to the line without being pulled and scrapped.
The Helios 5 PXL Wafer DualBeam is compatible with semiconductor factory automation, facilitating operator-free recipe-driven operations. This automation can support the high-throughput requirements of fab metrology and process monitoring – even on the most challenging structures.
Fast time to data
Utilizing the patented Thermo Scientific Elstar Electron Column with the high-performance PFIB2.0 xenon plasma ion column, the Helios 5 PXL Wafer DualBeam delivers high-resolution, high-contrast imaging. Obtain exact dimensional measurements of high-aspect-ratio 3D through-stack structures, data that is not easily accessible to conventional in-line metrology tools.
Faster yield learning and increased productivity
Fast, precise, large-area wafer level deprocessing, diagonal milling and cross sectioning of high-aspect-ratio structures. Advanced automation capabilities identify potential issues, accelerating process development and minimizing manufacturing disruptions.
World-class service, knowledge, and expertise
The Helios 5 PXL Wafer DualBeam is backed by our world-class service, knowledge, and expertise in advanced metrology sample preparation and failure analysis.
| Xe+ Plasma FIB Column |
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| Elstar UHR Immersion Lens FESEM Column |
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| Gas delivery |
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| Wafer handling |
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| Additional options |
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The Thermo Scientific Helios DualBeam Family
The Thermo Scientific Helios DualBeam Family
Semiconductor Advanced Packaging
Performance, power efficiency, area, and cost are driving packaging innovations. Learn how workflows provide fast, precise, and accurate time-to-data.
Semiconductor Memory Devices
Data demands are driving 3D NAND, DRAM and other memory structure innovations. Learn how analysis tools and workflows offer accurate visibility of buried features and defects.
Semiconductor research and development
Innovation starts with research and development. Learn more about solutions to help you understand innovative structures and materials at the atomic level.
Semiconductor metrology
Manufacturing today’s complex semiconductors requires exact process controls. Learn more about advanced metrology and analysis solutions to accelerate yield learnings.
Semiconductor Failure Analysis
Complex semiconductor device structures result in more places for defects to hide. Learn more about failure analysis solutions to isolate, analyze, and repair defects.
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.
Semiconductor materials characterization
Many factors impact yield, performance, and reliability. Learn more about solutions to characterize physical, structural, and chemical properties.
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.
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.
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).
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.
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.
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.
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.
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.
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.
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.
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.
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.
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).
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.
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.
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.
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.
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.
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.
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.
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.
Electron microscopy support and resources
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