The Global Focused Ion Beam Market size is expected to reach $2.43 billion by 2032, rising at a market growth of 6.9% CAGR during the forecast period.
Focused ion beam systems have transformed from specialized research tools in the 1970s-1980s to modern dual-beam FIB-SEM platforms used across semiconductors, materials science, nanotechnology, and life sciences. Key OEMs such as Hitachi High Technologies, Thermo FisherScientific (FEI legacy), JEOL, and TESCAN have gained decades of research and knowledge to incorporate high-precision ion beams, deposition, milling, advanced imaging, and automation. Government-funded programs - like India’s NanoMission, U.S. National Nanotechnology Initiative (NNI), EU Horizon initiatives - have invested robustly in infrastructure, facilitating collaborative access to high-end FIB tools in industrial labs and academic institutions. These collaborations promote partnerships between companies and OEMs such as Thermo Fisher’s Arctis Cryo Plasma FIB, crafted with the UK’s Rosalind Franklin Institute.
Nanotechnology centers in the U.S., EU, India, and Japan that receive government funding have become centers for interdisciplinary research and development that support uses in semiconductors, clean energy, advanced composites, and biotechnology. OEMs make sure that their product strategies match the needs of the public sector by focusing on cryo-capable systems, plasma ion sources for faster milling, correlative light-electron workflows, and software automation. Working with publicly funded labs makes sure that new features are adopted, trained on, and localized. Companies like TESCAN, JEOL, and Hitachi work closely with scientific institutions to make both commercial and custom FIB systems and put them in national research facilities. This solidifies their role in making nanoscale analysis and fabrication possible.
The leading players in the market are competing with diverse innovative offerings to remain competitive in the market. The above illustration shows the percentage of revenue shared by some of the leading companies in the market. The leading players of the market are adopting various strategies in order to cater demand coming from the different industries. The key developmental strategies in the market are Acquisitions, and Partnerships & Collaborations.
In the Asia Pacific region, rapid industrialization, semiconductor manufacturing growth, and national nanotechnology programs in countries like Japan, China, South Korea, and India fuel FIB demand. Japan’s Nanotechnology Platform, China’s state-backed semiconductor initiatives, and India’s NanoMission program are expanding access to FIB systems in universities and industrial labs. LAMEA is an emerging market, with growth driven by research infrastructure development in countries like Brazil, Saudi Arabia, and South Africa. Investments are focused on materials science, mining, and energy-related nanotechnology research. However, market penetration remains lower compared to mature regions, leaving significant scope for OEM expansion through training partnerships and shared-access facilities.
Key Highlights:
- The North America market dominated Global Focused Ion Beam Market in 2024, accounting for a 35.12% revenue share in 2024.
- The U.S. market is projected to maintain its leadership in North America, reaching a market size of USD 636.1 million by 2032.
- Among the Type, the Ga+ Liquid Metal segment dominated the global market, contributing a revenue share of 78.61% in 2024.
- In terms of Vertical, Electronics & Semiconductor segment is expected to lead the global market, with a projected revenue share of USD 1.16 billion by 2032.
- The Failure Analysis segment emerged as the leading Application in 2024, capturing a 27.48% revenue share, and is projected to retain its dominance during the forecast period.
Focused ion beam systems have transformed from specialized research tools in the 1970s-1980s to modern dual-beam FIB-SEM platforms used across semiconductors, materials science, nanotechnology, and life sciences. Key OEMs such as Hitachi High Technologies, Thermo FisherScientific (FEI legacy), JEOL, and TESCAN have gained decades of research and knowledge to incorporate high-precision ion beams, deposition, milling, advanced imaging, and automation. Government-funded programs - like India’s NanoMission, U.S. National Nanotechnology Initiative (NNI), EU Horizon initiatives - have invested robustly in infrastructure, facilitating collaborative access to high-end FIB tools in industrial labs and academic institutions. These collaborations promote partnerships between companies and OEMs such as Thermo Fisher’s Arctis Cryo Plasma FIB, crafted with the UK’s Rosalind Franklin Institute.
Nanotechnology centers in the U.S., EU, India, and Japan that receive government funding have become centers for interdisciplinary research and development that support uses in semiconductors, clean energy, advanced composites, and biotechnology. OEMs make sure that their product strategies match the needs of the public sector by focusing on cryo-capable systems, plasma ion sources for faster milling, correlative light-electron workflows, and software automation. Working with publicly funded labs makes sure that new features are adopted, trained on, and localized. Companies like TESCAN, JEOL, and Hitachi work closely with scientific institutions to make both commercial and custom FIB systems and put them in national research facilities. This solidifies their role in making nanoscale analysis and fabrication possible.
COVID-19 Impact Analysis
The COVID-19 pandemic profoundly disrupted the Focused Ion Beam (FIB) market, primarily due to supply chain interruptions, manufacturing slowdowns, and international logistics restrictions that delayed production and equipment delivery. Key end-user sectors, including semiconductors and academic research, curtailed capital expenditures amid economic uncertainty, leading to postponed or canceled FIB acquisitions. Additionally, workforce challenges such as limited on-site staffing and disrupted training pipelines hindered R&D and customer engagement. Emerging markets faced further setbacks due to constrained investments, collectively resulting in a marked slowdown in market growth and vendor performance during the pandemic period. Thus, the COVID-19 pandemic had a negative impact on the market.Driving and Restraining Factors
Drivers- Increasing Demand for Semiconductor Miniaturization and Circuit Complexity
- Rising Importance of Failure Analysis and Defect Characterization
- Growth in Nanotechnology Research and Materials Science Applications
- Adoption of FIB in Advanced Data Storage and Quantum Computing Development
- High Capital Investment and Operating Costs
- Limited Throughput and Time-Intensive Processing
- Beam-Induced Sample Damage and Limited Material Compatibility
- Expanding Role in Quantum Materials and Cryogenic Nanofabrication
- Integration in Advanced Packaging and Heterogeneous Integration
- Widening Applications in Life Sciences and Bio-Nanotechnology
- Throughput Limitations Hindering Scalability
- Technical Complexity and Skill-Intensive Operation
- Limited Compatibility with Soft Materials and Non-Conductive Substrates
Market Share Analysis
The leading players in the market are competing with diverse innovative offerings to remain competitive in the market. The above illustration shows the percentage of revenue shared by some of the leading companies in the market. The leading players of the market are adopting various strategies in order to cater demand coming from the different industries. The key developmental strategies in the market are Acquisitions, and Partnerships & Collaborations.
Type Outlook
Based on Type, the market is segmented into Ga+ Liquid Metal, Gas Field, and Plasma. The gas field segment attained 14% revenue share in the focused ion beam market in 2024. Gas field ion sources (GFIS) offer unique advantages, including high brightness and low energy spread, which are ideal for ultra-high-resolution imaging. These systems are gaining traction in domain such as surface science, advanced materials characterization, and biological sample analysis. The growing demand for detailed surface imaging in academic and industrial research has supported the adoption of gas field FIB technologies.Vertical Outlook
Based on Vertical, the market is segmented into Electronics & Semiconductor, Material Science, Industrial Science, and Bioscience. The material science segment recorded 23% revenue share in the focused ion beam market in 2024. FIB systems are increasingly being used in material science research to prepare transmission electron microscopy (TEM) samples, perform microstructural analysis, and investigate surface properties at nanoscale levels. The rise in academic research, coupled with advancements in materials used across industries such as aerospace, energy, and automotive, has propelled the adoption of focused ion beam technology in this field.Regional Outlook
Region-wise, the market is analyzed across North America, Europe, Asia Pacific, and LAMEA. The North America segment recorded 35% revenue share in the focused ion beam market in 2024. The Focused Ion Beam market in North America is growing because of strong research and development in semiconductors and advanced materials, as well as strong government funding through programs like the U.S. National Nanotechnology Initiative (NNI). Innovation and adoption in fields like semiconductor device failure analysis, nanofabrication, and biotechnology are helped by the presence of top research universities, federal labs, and OEM headquarters, especially Thermo Fisher Scientific. Coordinated research programs like Horizon 2020 and Horizon Europe help Europe by encouraging cross-border collaborations and shared nanofabrication facilities. OEMs like TESCAN (Czech Republic) and JEOL Europe work closely with academic labs and government-funded centers to support research in energy storage, materials characterization, and cryogenic life sciences.In the Asia Pacific region, rapid industrialization, semiconductor manufacturing growth, and national nanotechnology programs in countries like Japan, China, South Korea, and India fuel FIB demand. Japan’s Nanotechnology Platform, China’s state-backed semiconductor initiatives, and India’s NanoMission program are expanding access to FIB systems in universities and industrial labs. LAMEA is an emerging market, with growth driven by research infrastructure development in countries like Brazil, Saudi Arabia, and South Africa. Investments are focused on materials science, mining, and energy-related nanotechnology research. However, market penetration remains lower compared to mature regions, leaving significant scope for OEM expansion through training partnerships and shared-access facilities.
Recent Strategies Deployed in the Market
- Apr-2025: Zeiss launched the Crossbeam 550 Samplefab, a fully automated focused ion beam scanning electron microscope (FIB-SEM) for efficient TEM sample preparation in semiconductor labs, offering high throughput, minimal operator intervention, and enhanced accuracy for lamella production and defect analysis.
- Dec-2024: TESCAN GROUP expanded its presence in Asia by establishing subsidiaries in Taiwan and Singapore to better serve semiconductor and materials science sectors. This move enhances customer support and strengthens its position in the Focused Ion Beam market across the APAC region.
- Jul-2024: Hitachi High-Tech and National Taiwan University established a joint FIB-SEM innovation center to advance semiconductor and materials research. The facility promotes FIB technology adoption in Taiwan through industry-academia collaboration, technical support, and human resource development in science and technology.
- Aug-2023: TESCAN ORSAY HOLDING and TESCAN BRNO merged to form TESCAN GROUP, simplifying ownership and operations after Carlyle's acquisition. The move strengthens global capabilities in electron and focused ion beam technologies, enhancing efficiency and customer experience in the semiconductor and research sectors.
- Aug-2022: Thermo Fisher Scientific launched the Arctis Cryo-PFIB system to accelerate cryo-electron tomography research, enhancing automation, sample consistency, and throughput. Developed with The Rosalind Franklin Institute, it expands Focused Ion Beam market applications into life sciences and structural biology research.
List of Key Companies Profiled
- Thermo Fisher Scientific, Inc.
- Hitachi Energy Ltd. (Hitachi, Ltd.)
- JEOL Ltd.
- Oxford Instruments plc
- Carl Zeiss AG
- Veeco Instruments, Inc.
- A&D Company, Limited
- Raith GmbH
- TESCAN ORSAY HOLDING, a.s.
- Eurofins Scientific SE
Market Report Segmentation
By Wafer Size- 300 mm
- 200 mm
- Less than 200 mm
- 5D Packaging
- 3D Packaging
- Fan-Out Packaging
- Through-Glass Vias (TGV)
- Redistribution Layer (RDL)-First/Last
- Glass Panel Level Packaging (PLP)
- Consumer Electronics
- Telecommunications
- Automotive
- Defense & Aerospace
- Healthcare
- Other End Use Industry
- North America
- US
- Canada
- Mexico
- Rest of North America
- Europe
- Germany
- UK
- France
- Russia
- Spain
- Italy
- Rest of Europe
- Asia Pacific
- China
- Japan
- India
- South Korea
- Australia
- Malaysia
- Rest of Asia Pacific
- LAMEA
- Brazil
- Argentina
- UAE
- Saudi Arabia
- South Africa
- Nigeria
- Rest of LAMEA
Table of Contents
Chapter 1. Market Scope & Methodology
Chapter 2. Market at a Glance
Chapter 3. Market Overview
Chapter 8. Competition Analysis - Global
Chapter 9. Value Chain Analysis - Focused Ion Beam Market
Chapter 11. Global Focused Ion Beam Market by Type
Chapter 12. Global Focused Ion Beam Market by Vertical
Chapter 13. Global Focused Ion Beam Market by Application
Chapter 14. Global Focused Ion Beam Market by Region
Chapter 15. Company Profiles
Companies Mentioned
- Thermo Fisher Scientific, Inc.
- Hitachi Energy Ltd. (Hitachi, Ltd.)
- JEOL Ltd.
- Oxford Instruments plc
- Carl Zeiss AG
- Veeco Instruments, Inc.
- A&D Company, Limited
- Raith GmbH
- TESCAN ORSAY HOLDING, a.s.
- Eurofins Scientific SE
