REPORT OUTLOOK
Market Size | CAGR | Dominating Region |
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USD 376.16 million by 2030 | 2.8% | North America |
by Type | by Application |
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SCOPE OF THE REPORT
Market Overview
The global residual gas analyser market size is projected to grow from USD 310.04 million in 2023 to USD 376.16 million by 2030, exhibiting a CAGR of 2.8% during the forecast period.
A residual gas analyser (RGA) is a scientific equipment used in physics, chemistry, and engineering to determine the composition of gases in a vacuum chamber or atmosphere. It works on the mass spectrometry concept, which involves ionizing gas molecules and then separating them depending on their mass-to-charge ratio. The device is normally made up of an ion source, mass Analyser, and detector. Gas molecules enter the ion source and are attacked by electrons, causing them to become ionized. These ions are then propelled by an electric or magnetic field into the mass Analyser, where they are sorted depending on their mass-to-charge ratio. The ions are then detected and examined to determine the types and amounts of gases present. RGAs are extremely useful instruments in research and development, especially in areas like semiconductor production, aerospace engineering, and materials science, where exact vacuum conditions and gas impurity monitoring are crucial. They enable scientists and engineers to discover and quantify trace gases, monitor vacuum quality, and solve problems like as gas contamination, leakage, or outgassing. Overall, RGAs play an important role in the dependability and performance of vacuum systems in a variety of applications.
Residual Gas Analysers (RGAs) are critical tools in a variety of scientific and commercial applications because of their capacity to precisely evaluate the composition of gases in vacuum conditions. Their relevance arises from their capacity to identify and quantify trace gases, pollutants, and impurities that might have a substantial impact on the performance and reliability of many processes and systems. Maintaining tight vacuum conditions is critical in sectors such as semiconductor production, aerospace engineering, and materials research to ensure product and process quality and integrity. Even minute amounts of residual gases can have a negative impact on vacuum system performance, resulting in contamination, outgassing, and decreased efficiency. RGAs allow scientists and engineers to detect the presence of these trace gases, allowing them to take proactive measures to reduce their impact and ensure optimal performance. Furthermore, RGAs play an important role in research and development by providing information about the chemical processes that occur inside vacuum chambers. They contribute to the characterization of materials, the study of gas-surface interactions, and the investigation of fundamental physical phenomena. RGAs aid researchers in understanding and optimizing experimental conditions, resulting in advances in a variety of scientific disciplines.
ATTRIBUTE | DETAILS |
Study period | 2020-2030 |
Base year | 2022 |
Estimated year | 2023 |
Forecasted year | 2023-2030 |
Historical period | 2019-2021 |
Unit | Value (USD Million) |
Segmentation | By Type, Application and Region |
 By Type |
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 By Application |
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 By Region  |
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Residual Gas Analyser (RGA) Market Segmentation Analysis
The global residual gas analyser (RGA) market is bifurcated three segments, by type, application and region. By type, the market is bifurcated into open ion source RGAs, closed ion source RGAs. By application, the market is bifurcated industrial applications, laboratory research, others and region.
Residual Gas Analysers (RGAs) are divided into two categories based on the ion source configuration: open ion source RGAs and closed ion source RGAs.Open ion source RGAs have an ionization chamber that is exposed to vacuum. In this system, gas molecules are ionized directly within the vacuum space, allowing for adaptable and sensitive investigation of a wide variety of gases. These RGAs are widely used in research and development situations where exact gas analysis is critical, as well as companies that require extensive monitoring of gas composition. Closed ion source RGAs, on the other hand, limit the ionization process to a sealed chamber. This arrangement provides higher stability and robustness, making closed ion source RGAs ideal for industrial applications that need continuous and dependable gas monitoring. They perform well in conditions where pressure changes or the presence of pollutants may interfere with the analysis. The market’s division into these two sorts reflects the unique benefits and use cases that each offers. Open ion source RGAs emphasize sensitivity and adaptability, whereas closed ion source RGAs emphasize stability and dependability. Understanding this segmentation is critical for stakeholders to choose the right RGA technology for their individual needs and operating conditions.
RGAs are used in industrial settings for a variety of applications, including quality control, process monitoring, and troubleshooting. RGAs are used in industries such as semiconductor production, vacuum coating, and pharmaceuticals to monitor gas composition within vacuum chambers and guarantee process integrity. For example, in semiconductor production, RGAs serve an important role in identifying and measuring trace contaminants that might impair the performance and reliability of microelectronic devices. Similarly, in vacuum coating operations, RGAs are utilized to optimize deposition conditions and assure coated surface quality by monitoring gas levels and impurities. RGAs are essential instruments in laboratory research for researching fundamental physical and chemical events, analysing materials, and exploring new technologies. RGAs are used by researchers in several scientific fields, including physics, chemistry, and materials science, to describe gases in vacuum systems, examine gas-surface interactions, and explore reaction processes. RGAs allow for exact gas composition measurement and analysis, which provides vital insights into the behaviour of materials and chemical processes under regulated vacuum circumstances. The “others” category includes a wide range of applications for RGAs that do not take place in regular industrial or laboratory settings. This might include specialized applications in areas such as aircraft, environmental monitoring, and medical research. For example, in aerospace engineering, RGAs are used to monitor and maintain vacuum conditions in spacecraft propulsion systems, as well as replicate space settings for testing reasons. RGAs are used in environmental monitoring to assess air quality and identify contaminants in controlled conditions. Furthermore, in medical research, RGAs can be used to explore gas exchange mechanisms in biological systems or to analyse gas emissions from medical equipment.
Residual Gas Analyser (RGA) Market Dynamics
Driver
The growing demand for semiconductors, driven by advancements in technologies like AI, IoT, and 5G, is likely to propel the RGA market forward.
The semiconductor sector is critical to powering the current technological environment, with applications ranging from smartphones and computers to car electronics and Internet of Things devices. To ensure the reliability and performance of electronic components, semiconductor-manufacturing processes must adhere to strict quality control standards. Residual Gas Analyzers (RGAs) are critical instruments in this quest because they allow for exact monitoring and study of gas composition within vacuum systems, which are required for semiconductor manufacture. As breakthroughs in technologies such as artificial intelligence (AI), the internet of things (IoT), and 5G continue to fuel innovation and promote the creation of new electronic devices and systems, demand for semiconductors is skyrocketing. AI-powered applications required high-performance computing capabilities, IoT devices necessitate effective connection solutions, and the introduction of 5G networks necessitates cutting-edge semiconductor components. This exponential expansion in semiconductor demand necessitates increased production needs, emphasizing the importance of effective quality control methods throughout the manufacturing process. In this setting, RGAs emerge as critical tools for semiconductor manufacturers, allowing for real-time monitoring and analysis of gas contaminants within vacuum chambers. Furthermore, the changing landscape of semiconductor manufacturing techniques, such as the use of sophisticated materials, innovative processes, and increasing production volumes, emphasizes the need of RGAs in guaranteeing process integrity and product consistency. Whether developing cutting-edge nanoscale devices or scaling up manufacturing facilities to meet rising demand, RGAs give important insights into gas-phase phenomena, allowing manufacturers to optimize process settings, solve problems, and increase yield rates.
Restraint
The initial cost of acquiring RGA equipment can be substantial, especially for small and medium-sized enterprises.
The purchase of Residual Gas Analyzer (RGA) equipment sometimes requires a considerable initial expenditure, creating a significant barrier to adoption, particularly for small and medium-sized businesses (SMEs). The significant upfront expenditures of acquiring RGAs include not only the purchase of the equipment, but also installation, calibration, training, and maintenance. This cost expenditure can be a significant barrier for businesses operating on tight budgets, limiting their capacity to invest in RGA technology, particularly in emerging markets where financial resources are few. For SMEs in particular, the choice to invest in RGAs must be carefully considered in light of conflicting goals and financial restrictions. Furthermore, the perceived risk associated with such a large financial commitment may discourage investment, especially in companies with tight profit margins and capital expenditures that must be carefully controlled to assure viability. Financing RGA initiatives is even more difficult in emerging nations, where access to cash may be limited and infrastructure development is still in its early stages. SMEs operating in these circumstances may experience increased obstacles to adoption owing to restricted financing alternatives, a lack of government backing for technology expenditures, and uncertainty about economic stability and market conditions.
Opportunities
The emerging economies of Asia-Pacific and Latin America present a promising landscape for manufacturers of Residual Gas Analyzers (RGAs), offering substantial growth opportunities driven by several key factors.
To begin, growing industrialization in these countries is driving up demand for modern analytical instruments such as RGAs. As companies grow and diversify, there is a greater emphasis on optimizing production processes, maintaining product quality, and reducing environmental impact, all of which need the use of precision gas analysis equipment. Furthermore, continuous infrastructure development initiatives in energy, building, and transportation increase the demand for advanced analytical tools. RGAs play an important role in assuring the integrity and safety of numerous systems and processes in major infrastructure projects, which range from gas pipelines to vacuum chambers in industrial plants. Furthermore, increased expenditures in research centres and academic institutions in these regions drive demand for RGAs. These universities demand advanced analytical tools for basic research, material analysis, and process optimization in a variety of disciplines, including chemistry, physics, and engineering. As these areas’ research capacity and cooperation grow, so will demand for RGAs. Furthermore, the transition to greener energy sources and environmental sustainability measures in rising countries opens up new prospects for RGAs. These devices are useful for monitoring and analysing gases in energy production, pollution control, and environmental monitoring applications, which coincide with the increased emphasis on regulatory compliance and sustainable practices. To summarize, the expansion of emerging markets, driven by industrialization, infrastructure development, research investments, and sustainability initiatives, provides an ideal opportunity for RGA manufacturers to expand their presence and capitalize on the growing demand for advanced analytical instrumentation. Understanding and capitalizing on these growth factors allows manufacturers to strategically position themselves to capitalize on the immense potential presented by these dynamic and growing industries.
Residual Gas Analyser (RGA) Market Trends
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With the ongoing improvement of semiconductor technology and the requirement for improved quality and reliability in semiconductor devices, there is an increasing need for accurate gas composition monitoring and control in vacuum chambers during the production process.
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Vacuum coating methods are widely utilized in sectors such as automotive, optical, and electronics to apply thin coatings with specialized characteristics. RGAs are used to monitor gas levels and contaminants during these operations, ensuring the quality and uniformity of the deposited coatings.
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Continuous innovation in RGA technology, including advances in sensitivity, resolution, and speed, is broadening these instruments’ capabilities and applications.
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RGAs are increasingly being integrated into automated process control systems, allowing for real-time monitoring and modification of vacuum operations.
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Environmental monitoring agencies and research institutes are increasingly utilizing RGAs to analyse air quality, identify contaminants, and examine gas emissions in controlled situations.
- In the healthcare industry, RGAs are used for a variety of purposes, including monitoring gas exchange activities in biological systems, assessing gas emissions from medical equipment, and investigating gas-phase interactions pertinent to healthcare research
Competitive Landscape
The competitive landscape of the residual gas Analyser (RGA) market was dynamic, with several prominent companies competing to provide innovative and advanced residual gas Analyser.
- Agilent Technologies
- Ametek Inc.
- Extorr
- Hiden Analytical
- Inficon
- Leybold GmbH
- Mass-Vac, Inc.
- MKS Instruments
- Omicron Nanotechnology
- Pfeiffer Vacuum Technology AG
- PHI Incorporated
- Semicore Equipment, Inc.
- Shimadzu Corporation
- Sigma-Aldrich Corporation
- SRS Vacuum
- Stanford Research Systems
- Thermo Fisher Scientific
- ULVAC Technologies, Inc.
- Vacuum Engineering & Materials Co.
Recent Developments:
February 12, 2024 — The FORCE2C mission computer from AMETEK Abaco Systems has passed its final hardware and software SOI reviews and has been officially approved by the Federal Aviation Administration (FAA). Along with the mission computer, all artifacts for certification are now available and comply with the airborne certification guidelines of DO-254 and DO-178C for fixed and rotary wing aircraft (crewed and uncrewed) and are also approved for ground-based applications.
February 14, 2024 – To support a wider range of ion chromatography analysis with one instrument, Thermo Fisher Scientific Inc., today launched the Thermo Scientificâ„¢ Dionexâ„¢ Inuvionâ„¢ Ion Chromatography (IC) system, helping to make ion analysis simpler and more intuitive for labs of all sizes. The new analytical instrument is designed to be easily reconfigurable, providing those who require determination of ionic and small polar compounds with a one stop shop for consistent, reliable ion analysis.
Regional Analysis
North America dominates the Residual Gas Analyzer (RGA) market, owing to the presence of important companies, solid technical infrastructure, and considerable expenditures in R&D efforts. The United States dominates the market because to its strong industrial foundation, notably in semiconductor manufacture, aerospace engineering, and scientific research. The United States is home to numerous well-known RGA manufacturers and research organizations that fuel innovation and technical improvements in the industry. Furthermore, tight regulatory criteria concerning product quality and environmental monitoring increase the need for RGAs in many industries.
Furthermore, the region’s emphasis on technical innovation and the implementation of modern manufacturing methods contribute to the RGA market’s continued expansion in North America. While other areas, such as Europe and Asia-Pacific, have significant development potential, North America continues to dominate the global RGA market due to its superior technological capabilities, strong industrial infrastructure, and strategic investments in important industries.
Target Audience for Residual Gas Analyser (RGA) Market
- Semiconductor manufacturers
- Aerospace engineers
- Vacuum coating industries
- Pharmaceutical companies
- Research laboratories
- Environmental monitoring agencies
- Medical research institutions
- Space agencies
- Vacuum equipment manufacturers
- Chemical processing industries
Segments Covered in the Residual Gas Analyser (RGA) Market Report
Residual Gas Analyser (RGA) Market by Type
- Open Ion Source RGAs
- Closed Ion Source RGAs
Residual Gas Analyser (RGA) Market by Application
- Industrial Applications
- Laboratory Research
- Others
Residual Gas Analyser (RGA) Market by Region
- North America
- Europe
- Asia Pacific
- South America
- Middle East and Africa
Key Question Answered
- What is the expected growth rate of the Residual Gas Analyser (RGA) Market over the next 7 years?
- Who are the key market participants Residual Gas Analyser, and what are their market share?
- What are the end-user industries driving market demand and what is their outlook?
- What are the opportunities for growth in emerging markets such as Asia-Pacific, the Middle East, and Africa?
- How is the economic environment affecting the Residual Gas Analyser (RGA) Market, including factors such as interest rates, inflation, and exchange rates?
- What is the expected impact of government policies and regulations on the Residual Gas Analyser (RGA) Market?
- What is the current and forecasted size and growth rate of the global Residual Gas Analyser (RGA) Market?
- What are the key drivers of growth in the Residual Gas Analyser (RGA) Market?
- Who are the major players in the market and what is their market share?
- What are the distribution channels and supply chain dynamics in the Residual Gas Analyser (RGA) Market?
- What are the technological advancements and innovations in the Residual Gas Analyser (RGA) Market and their impact on product development and growth?
- What are the regulatory considerations and their impact on the market?
- What are the challenges faced by players in the Residual Gas Analyser (RGA) Market and how are they addressing these challenges?
- What are the opportunities for growth and expansion in the Residual Gas Analyser (RGA) Market?
- What are the product offerings and specifications of leading players in the market?
Table of Content
- INTRODUCTION
- MARKET DEFINITION
- MARKET SEGMENTATION
- RESEARCH TIMELINES
- ASSUMPTIONS AND LIMITATIONS
- RESEARCH METHODOLOGY
- DATA MINING
- SECONDARY RESEARCH
- PRIMARY RESEARCH
- SUBJECT-MATTER EXPERTS’ ADVICE
- QUALITY CHECKS
- FINAL REVIEW
- DATA TRIANGULATION
- BOTTOM-UP APPROACH
- TOP-DOWN APPROACH
- RESEARCH FLOW
- DATA SOURCES
- DATA MINING
- EXECUTIVE SUMMARY
- MARKET OVERVIEW
- RESIDUAL GAS ANALYSER (RGA) MARKET OUTLOOK
- MARKET DRIVERS
- MARKET RESTRAINTS
- MARKET OPPORTUNITIES
- IMPACT OF COVID-19 ON RESIDUAL GAS ANALYSER (RGA) MARKET
- PORTER’S FIVE FORCES MODEL
- THREAT FROM NEW ENTRANTS
- THREAT FROM SUBSTITUTES
- BARGAINING POWER OF SUPPLIERS
- BARGAINING POWER OF CUSTOMERS
- DEGREE OF COMPETITION
- INDUSTRY VALUE CHAIN ANALYSIS
- RESIDUAL GAS ANALYSER (RGA) MARKET OUTLOOK
- GLOBAL RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE, 2020-2030, (USD MILLION)
- OPEN ION SOURCE RGAS
- CLOSED ION SOURCE RGAS
- GLOBAL RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION, 2020-2030, (USD MILLION)
- INDUSTRIAL APPLICATIONS
- LABORATORY RESEARCH
- OTHERS
- GLOBAL RESIDUAL GAS ANALYSER (RGA) MARKET BY REGION, 2020-2030, (USD MILLION)
- NORTH AMERICA
- US
- CANADA
- MEXICO
- SOUTH AMERICA
- BRAZIL
- ARGENTINA
- COLOMBIA
- REST OF SOUTH AMERICA
- EUROPE
- GERMANY
- UK
- FRANCE
- ITALY
- SPAIN
- RUSSIA
- REST OF EUROPE
- ASIA PACIFIC
- INDIA
- CHINA
- JAPAN
- SOUTH KOREA
- AUSTRALIA
- SOUTH-EAST ASIA
- REST OF ASIA PACIFIC
- MIDDLE EAST AND AFRICA
- UAE
- SAUDI ARABIA
- SOUTH AFRICA
- REST OF MIDDLE EAST AND AFRICA
- NORTH AMERICA
- COMPANY PROFILES*
(BUSINESS OVERVIEW, COMPANY SNAPSHOT, PRODUCTS OFFERED, RECENT DEVELOPMENTS)
- AGILENT TECHNOLOGIES
- AMETEK INC.
- EXTORR
- HIDEN ANALYTICAL
- INFICON
- LEYBOLD GMBH
- MASS-VAC, INC.
- MKS INSTRUMENTS (FORMERLY BROOKS AUTOMATION)
- OMICRON NANOTECHNOLOGY
- PFEIFFER VACUUM TECHNOLOGY AG
- PHI INCORPORATED
- SEMICORE EQUIPMENT, INC.
- SHIMADZU CORPORATION
- SIGMA-ALDRICH CORPORATION
- SRS VACUUM
- STANFORD RESEARCH SYSTEMS
- THERMO FISHER SCIENTIFIC
- ULVAC TECHNOLOGIES, INC.
- VACUUM ENGINEERING & MATERIALS CO.    *THE COMPANY LIST IS INDICATIVE
LIST OF TABLES
TABLE 1 GLOBAL RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 2 GLOBAL RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 3 GLOBAL RESIDUAL GAS ANALYSER (RGA) MARKET BY REGION (USD MILLION) 2020-2030
TABLE 4 NORTH AMERICA RESIDUAL GAS ANALYSER (RGA) MARKET BY COUNTRY (USD MILLION) 2020-2030
TABLE 5 NORTH AMERICA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 6 NORTH AMERICA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 7 US RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 8 US RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 9 CANADA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 10 CANADA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 11 MEXICO RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 12 MEXICO RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 13 SOUTH AMERICA RESIDUAL GAS ANALYSER (RGA) MARKET BY COUNTRY (USD MILLION) 2020-2030
TABLE 14 SOUTH AMERICA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 15 SOUTH AMERICA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 16 BRAZIL RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 17 BRAZIL RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 18 ARGENTINA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 19 ARGENTINA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 20 COLOMBIA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 21 COLOMBIA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 22 REST OF SOUTH AMERICA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 23 REST OF SOUTH AMERICA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 24 ASIA-PACIFIC RESIDUAL GAS ANALYSER (RGA) MARKET BY COUNTRY (USD MILLION) 2020-2030
TABLE 25 ASIA-PACIFIC RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 26 ASIA-PACIFIC RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 27 INDIA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 28 INDIA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 29 CHINA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 30 CHINA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 31 JAPAN RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 32 JAPAN RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 33 SOUTH KOREA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 34 SOUTH KOREA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 35 AUSTRALIA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 36 AUSTRALIA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 37 SOUTH-EAST ASIA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 38 SOUTH-EAST ASIA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 39 REST OF ASIA PACIFIC RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 40 REST OF ASIA PACIFIC RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 41 EUROPE RESIDUAL GAS ANALYSER (RGA) MARKET BY COUNTRY (USD MILLION) 2020-2030
TABLE 42 EUROPE RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 43 EUROPE RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 44 GERMANY RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 45 GERMANY RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 46 UK RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 47 UK RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 48 FRANCE RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 49 FRANCE RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 50 ITALY RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 51 ITALY RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 52 SPAIN RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 53 SPAIN RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 54 RUSSIA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 55 RUSSIA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 56 REST OF EUROPE RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 57 REST OF EUROPE RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 58 MIDDLE EAST AND AFRICA RESIDUAL GAS ANALYSER (RGA) MARKET BY COUNTRY (USD MILLION) 2020-2030
TABLE 59 MIDDLE EAST AND AFRICA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 60 MIDDLE EAST AND AFRICA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 61 UAE RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 62 UAE RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 63 SAUDI ARABIA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 64 SAUDI ARABIA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 65 SOUTH AFRICA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 66 SOUTH AFRICA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
TABLE 67 REST OF MIDDLE EAST AND AFRICA RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE (USD MILLION) 2020-2030
TABLE 68 REST OF MIDDLE EAST AND AFRICA RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION (USD MILLION) 2020-2030
LIST OF FIGURES
FIGURE 1 MARKET DYNAMICS
FIGURE 2 MARKET SEGMENTATION
FIGURE 3 REPORT TIMELINES: YEARS CONSIDERED
FIGURE 4 DATA TRIANGULATION
FIGURE 5 BOTTOM-UP APPROACH
FIGURE 6 TOP-DOWN APPROACH
FIGURE 7 RESEARCH FLOW
FIGURE 8 GLOBAL RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE, USD MILLION, 2022-2030
FIGURE 9 GLOBAL RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION, USD MILLION, 2022-2030
FIGURE 10 GLOBAL RESIDUAL GAS ANALYSER (RGA) MARKET BY REGION, USD MILLION, 2022-2030
FIGURE 11 PORTER’S FIVE FORCES MODEL
FIGURE 12 GLOBAL RESIDUAL GAS ANALYSER (RGA) MARKET BY TYPE, USD MILLION,2022
FIGURE 13 GLOBAL RESIDUAL GAS ANALYSER (RGA) MARKET BY APPLICATION, USD MILLION,2022
FIGURE 14 GLOBAL RESIDUAL GAS ANALYSER (RGA) MARKET BY REGION, USD MILLION,2022
FIGURE 15 MARKET SHARE ANALYSIS
FIGURE 16Â AGILENT TECHNOLOGIES: COMPANY SNAPSHOT
FIGURE 17Â Â AMETEK INC.: COMPANY SNAPSHOT
FIGURE 18Â Â EXTORR: COMPANY SNAPSHOT
FIGURE 19Â Â HIDEN ANALYTICAL: COMPANY SNAPSHOT
FIGURE 20Â Â INFICON: COMPANY SNAPSHOT
FIGURE 21Â Â LEYBOLD GMBH: COMPANY SNAPSHOT
FIGURE 22Â MASS-VAC, INC.: COMPANY SNAPSHOT
FIGURE 23 MKS INSTRUMENTS (FORMERLY BROOKS AUTOMATION): COMPANY SNAPSHOT
FIGURE 24Â Â Â Â Â Â Â Â Â Â OMICRON NANOTECHNOLOGY: COMPANY SNAPSHOT
FIGURE 25Â Â Â Â Â Â Â Â Â Â PFEIFFER VACUUM TECHNOLOGY AG: COMPANY SNAPSHOT
FIGURE 26Â Â Â Â Â Â Â Â Â Â PHI INCORPORATED: COMPANY SNAPSHOT
FIGURE 27Â Â Â Â Â Â Â Â Â Â SEMICORE EQUIPMENT, INC.: COMPANY SNAPSHOT
FIGURE 28Â Â Â Â Â Â Â Â Â Â SHIMADZU CORPORATION: COMPANY SNAPSHOT
FIGURE 29Â Â Â Â Â Â Â Â Â Â SIGMA-ALDRICH CORPORATION: COMPANY SNAPSHOT
FIGURE 30Â Â Â Â Â Â Â Â Â Â SRS VACUUM: COMPANY SNAPSHOT
FIGURE 31Â Â Â Â Â Â Â Â Â Â STANFORD RESEARCH SYSTEMS: COMPANY SNAPSHOT
FIGURE 32Â Â Â Â Â Â Â Â Â Â THERMO FISHER SCIENTIFIC: COMPANY SNAPSHOT
FIGURE 33Â Â Â Â Â Â Â Â Â Â ULVAC TECHNOLOGIES, INC.: COMPANY SNAPSHOT
FIGURE 34Â Â Â Â Â Â Â Â Â Â VACUUM ENGINEERING & MATERIALS CO: COMPANY SNAPSHOT
FAQ
The global residual gas analyser market size is projected to grow from USD 310.04 million in 2023 to USD 376.16 million by 2030, exhibiting a CAGR of 2.8% during the forecast period.
North America accounted for the largest market in the residual gas analyser market.
Agilent Technologies, Ametek Inc.,Extorr, Hiden Analytical, Inficon, Leybold GmbH, Mass-Vac, Inc.,MKS Instruments,),Omicron Nanotechnology and Others.
RGAs are essential tools for space agencies and aerospace businesses engaged in space exploration missions. These devices are used to study the composition of planets’ atmospheres, monitor spaceship propulsion systems, and characterize vacuum conditions in space simulation chambers.
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