Expansion of Semiconductor Manufacturing Infrastructure and Government Policy Support, are expected to drive market expansion in the near future at a CAGR of 5.14% during the forecast period 2024 to 2035

Market Research Future (MRFR) has published a cooked research report on the “Global Turbomolecular Pump Market” that contains information from 2019 to 2035.

The Global Turbomolecular Pump Market is estimated to register a CAGR of 5.14% during the forecast period of 2024 to 2035.

MRFR recognizes the following companies as the key players in the Turbomolecular Pumps Market— Edwards Ltd, Pfeiffer Vacuum Technology AG, Agilent Technologies Inc., Kurt J. Lesker Company, Brooks Automation Inc., Ebara Corporation, Leybold GmbH, Busch Vacuum Solutions, Osaka Vacuum, and Shimadzu Corporation.

Turbomolecular Pumps Market Highlights

The Turbomolecular Pumps Market is estimated to register a CAGR of 5.14% during the forecast period and is estimated to reach USD  2,310.19  million by 2035.

The Asia-Pacific region is witnessing accelerated growth in high-technology manufacturing, scientific research, and advanced industrial infrastructure, creating strong momentum for increased demand for turbomolecular pumps over the next decade. This demand growth is fundamentally linked to government-backed industrial policies, expanding semiconductor ecosystems, and rising investments in research and development facilities across the region. As Asia-Pacific economies continue to transition toward high-value manufacturing and precision engineering, turbomolecular pumps play a pivotal role in enabling ultra-high vacuum environments required for critical processes such as semiconductor fabrication, surface coating, materials science, and analytical instrumentation. These pumps are essential for transforming advanced manufacturing inputs into high-performance electronic components and precision products that underpin modern digital economies.

Governments across the Asia-Pacific region are implementing ambitious industrial and technology development programs to strengthen domestic manufacturing capabilities and reduce reliance on imports. Countries such as China, Japan, and South Korea are heavily investing in semiconductor fabrication plants, electronics manufacturing clusters, and national research laboratories. These initiatives support the construction and expansion of wafer fabs, display manufacturing units, and advanced materials facilities, all of which depend on turbomolecular pumps to maintain clean, stable, and contamination-free vacuum conditions. Public funding for space research, particle physics laboratories, and national metrology institutes further reinforces demand, as these facilities require reliable ultra-high vacuum systems for testing, experimentation, and simulation environments.

Moreover, the rapid expansion of electronics manufacturing and industrial research sectors across the Asia-Pacific is significantly driving turbomolecular pump adoption. As production volumes increase and device architectures become more complex, manufacturers require vacuum solutions capable of higher efficiency, continuous operation, and precise pressure control. Turbomolecular pumps are critical in supporting thin-film deposition, etching, and inspection processes, enabling higher yields and improved process reliability. At the same time, technological advancements such as magnetic bearing systems, compact pump designs, and digitally monitored operations are enhancing performance and energy efficiency, aligning with regional goals for smart manufacturing and sustainability. This strong alignment between industrial policy, technological advancement, and vacuum system requirements underscores the central role of turbomolecular pumps in supporting the Asia-Pacific’s long-term industrial and scientific development.

Segment Analysis

The Turbomolecular Pumps Market has been segmented based on Product Type, Application, End-User, Pumping Speed and Sales Channel.

On the basis of Product type, the market is segmented into Magnetically Levitated(Maglev) Turbomolecular Pumps, Oil Lubricated Turbomolecular Pumps, hybrid turbomolecular pumps, and other (Compact Pump, Custom Design pumps). The Magnetically Levitated (Maglev) turbomolecular pump segment held the largest share of the Global Turbomolecular Pump Market in 2024, while the Hybrid turbomolecular pump segment is expected to be the fastest growing during the forecast period. Maglev turbomolecular pumps dominate due to their extensive use in semiconductor fabrication, advanced research laboratories, and high-precision analytical instruments, where ultra-high vacuum stability, vibration-free operation, and contamination-free performance are essential. The use of active magnetic bearings eliminates mechanical contact, resulting in lower maintenance requirements, longer operational life, and high reliability for continuous operations. On the other hand, hybrid turbomolecular pumps are witnessing faster growth driven by increasing adoption in industrial vacuum processes, coating applications, and cost-sensitive manufacturing environments. By combining mechanical or ceramic bearings with turbomolecular technology, hybrid pumps offer a balanced solution between performance and affordability. Advancements in bearing materials, compact system design, and thermal management are further improving their efficiency and reliability, supporting broader adoption across emerging and mid-range industrial applications.

On the basis of application, the market is segmented into Analytical Instruments, Semiconductor Manufacturing, Industrial Vacuum Processes, Research and Development, and others. The semiconductor manufacturing segment represents both the largest and fastest-growing application area in the Global Turbomolecular Pump Market, driven by the industry’s reliance on high- and ultra-high-vacuum environments for advanced chip fabrication. Core semiconductor processes such as lithography, etching, chemical and physical vapor deposition, and ion implantation require stable, contamination-free vacuum conditions to ensure high yield and precision. As device geometries continue to shrink to nanometer scales, vacuum integrity has become increasingly critical, directly strengthening demand for high-performance turbomolecular pumps. In addition, the global expansion of semiconductor fabrication facilities, supported by government-backed industrial policies and investments in domestic chip production, is significantly increasing installed vacuum system capacity. Semiconductor fabs operate on continuous, high-duty cycles, favouring turbomolecular pumps for their reliability, oil-free operation, and compatibility with automated manufacturing environments. The growing adoption of advanced process nodes, coupled with rising demand from electronics, automotive, artificial intelligence, and 5G infrastructure, continues to position semiconductor manufacturing as the dominant and fastest-expanding application segment.

On the basis of End-Use Industry, the market is segmented into Semiconductor and Electronics, Healthcare and Lifesciences, Aerospace and Defense, Industrial Manufacturing, Research Institutes and Universities  and  Others(E.G., Energy sector, National laboratories). The semiconductor and electronics sector represent both the largest and fastest-growing end-user segment in the Global Turbomolecular Pump Market, reflecting the sector’s critical dependence on high- and ultra-high-vacuum environments. Manufacturing processes across semiconductor wafers, integrated circuits, flat-panel displays, and advanced electronic components require stable, contamination-free vacuum conditions to ensure precision, yield, and reliability. Turbomolecular pumps are essential for applications such as etching, deposition, lithography, and surface treatment, where even minimal particulate or gas contamination can compromise product quality. The rapid expansion of semiconductor fabrication capacity, alongside rising production of consumer electronics, automotive electronics, power devices, and advanced computing components, continues to drive demand. Additionally, electronics manufacturing increasingly relies on automation, continuous processing, and cleanroom environments, favoring turbomolecular pumps for their oil-free operation, low vibration, and long operational life. As device complexity increases and tolerances tighten, the semiconductor and electronics sector remain the primary growth engine for turbomolecular pump adoption globally.

Based on Pumping Speed, the Turbomolecular Pumps Market is bifurcated into Less than 100 L/S, 100-500 L/S, 500-1000 L/S and Greater than 1000 L/S. The 100–500 L/s pumping speed segment holds the largest share of the Global Turbomolecular Pump Market, owing to its broad applicability across semiconductor manufacturing, analytical instrumentation, research laboratories, and general industrial vacuum processes. Pumps within this range offer an optimal balance between vacuum performance, footprint, and cost, making them suitable for a wide variety of mid-scale vacuum chambers and continuous-duty operations. Their versatility supports widespread deployment in etching, deposition, surface analysis, and coating systems, particularly in facilities prioritising reliability and standardised equipment configurations. On the other hand, the 500–1000 L/s pumping speed segment is the fastest growing, driven by rising demand for higher throughput and faster pump-down times in advanced semiconductor fabs and large-volume processing environments. As wafer sizes increase and process complexity intensifies, higher pumping speeds are required to maintain stable ultra-high vacuum conditions and improve productivity. Ongoing advancements in rotor design, thermal management, and vibration control are further enhancing the feasibility and adoption of high-capacity turbomolecular pumps.

On the basis of Sales Channel, the market is segmented into Direct Sales (OEM), Distributors & System Integration, and Online Sales/Aftermarket. The direct sales (OEM) channel holds the largest share of the Global Turbomolecular Pump Market, driven by strong demand from semiconductor manufacturers, electronics OEMs, research institutions, and industrial system integrators that require customised, high-performance vacuum solutions. Large-scale end users typically procure turbomolecular pumps directly from manufacturers to ensure technical compatibility, application-specific configuration, and long-term service agreements. Direct engagement also supports integration into complex vacuum systems used in semiconductor fabs, analytical instrumentation, and space or defence applications, where reliability, certification, and after-sales support are critical. Meanwhile, the online sales and aftermarket channel is the fastest growing, supported by increasing replacement demand, spare parts sales, and servicing of installed pump bases. Growing digitalisation, improved logistics networks, and wider availability of certified refurbished pumps and components are making online platforms more attractive to smaller laboratories and industrial users. This transition is further supported by the need for faster procurement cycles and cost-effective maintenance solutions.

Regional Analysis

The Turbomolecular Pumps Market, based on region, the Global Turbomolecular Pump Market is segmented into North America, Europe, Asia-Pacific, South America, and Middle East and Africa. Asia-Pacific accounted for the largest market share in 2024, driven by its dominant position in semiconductor manufacturing, electronics production, and advanced industrial processing. The market in Asia-Pacific was valued at USD  599.35  million in 2024 and is anticipated to reach USD  1,105.66  million by 2035, registering the highest growth rate among all regions during the forecast period. Strong demand from China, Japan, South Korea, and India, coupled with large-scale investments in semiconductor fabs, cleanroom facilities, and research infrastructure, continues to reinforce the region’s leadership. Government-supported industrialization initiatives and rapid adoption of automation further strengthen market expansion.

Moreover, North America represents a mature and technologically advanced market, supported by strong demand from semiconductor fabrication, aerospace and defence testing, scientific research laboratories, and analytical instrumentation. The region benefits from established manufacturing ecosystems, high R&D spending, and early adoption of high- and ultra-high-vacuum technologies. Continuous upgrades of existing facilities and stable investment in advanced technologies sustain market growth.

Additionally, Europe is characterised by steady growth, driven by precision manufacturing, electronics production, and a strong focus on research and development. Stringent quality and environmental standards, along with the region’s emphasis on energy-efficient and contamination-free processes, support sustained adoption. Europe’s well-developed industrial supply chain and research infrastructure further contribute to market expansion.

South America holds a developing yet notable position in the Global Turbomolecular Pump Market, supported by gradual industrialization and expanding adoption of advanced manufacturing and analytical technologies. The region benefits from growing electronics assembly, industrial processing, and research activities, particularly in countries such as Brazil and Argentina. Improvements in industrial supply chains, rising investment in scientific laboratories, and increasing use of vacuum-based testing and coating systems are supporting market growth. Although the market remains smaller compared to Asia-Pacific and North America, steady progress in industrial infrastructure and technology adoption continues to strengthen regional demand.

Middle East & Africa represents an emerging market for turbomolecular pumps, supported by increasing investments in industrial diversification, research infrastructure, and advanced technology adoption. Growth is driven by expanding scientific laboratories, healthcare research facilities, and industrial processing applications that require high- and ultra-high-vacuum environments. Countries in the Gulf region are investing in electronics manufacturing, cleanroom facilities, and research and development centres as part of broader economic diversification strategies. Additionally, the energy sector’s focus on advanced materials testing, analytical instrumentation, and specialised vacuum applications is contributing to market demand. While adoption levels remain lower compared to Asia-Pacific and North America, ongoing improvements in technical infrastructure, education, and research capabilities are expected to support steady long-term growth of the turbomolecular pump market across the Middle East & Africa region.

Key Findings of the Study

• The Turbomolecular Pumps Market is expected to reach USD 2,310.19 Million by 2035, at a CAGR of 5.14% during the forecast period.


• The Asia Pacific region accounted for the fastest-growing in the global market.


• Based on product type, The Magnetically Levitated (Maglev) turbomolecular pump segment held the largest share of the Global Turbomolecular Pump Market, while the Hybrid turbomolecular pump segment is expected to be the fastest growing during the forecast period.


• Edwards Ltd, Pfeiffer Vacuum Technology AG, Agilent Technologies Inc., Kurt J. Lesker Company, Brooks Automation Inc., Ebara Corporation, Leybold GmbH, Busch Vacuum Solutions, Osaka Vacuum, Shimadzu Corporation are the key market players.