Semiconductor & Electronics // Sensors and Control
The global Quantum Sensors Market is foreseen
to grow by 19.5%, from USD 237.64 Million in 2022 to USD 988.24 Million in 2030.
growing need for high-precision measurements in various crucial applications, increasing
investments in development of quantum technologies, growing use of quantum
sensors in space industry is to drive the market for the upcoming forecast
period. however, availability of low-cost alternatives, high deployment and
maintenance costs remains one factor hindering the market growth over the
anticipated period.
Market Definition
What Is Quantum Sensors?
Market Overview
Quantum sensors, a revolutionary field of study at the
intersection of quantum mechanics and sensing technology, are poised to
transform the landscape of measurement and detection. These cutting-edge
devices harness the unique properties of quantum systems to achieve
unprecedented levels of precision, sensitivity, and accuracy. This essay delves
into the world of quantum sensors, exploring their working principles,
applications, and the top impacting factors in their development. Additionally,
it sheds light on government policies that shape this rapidly evolving field.
I. Working Principles of Quantum Sensors
Quantum sensors leverage the principles of quantum
mechanics to achieve remarkable sensing capabilities. At their core, these
devices exploit quantum phenomena such as superposition and entanglement to
enhance their performance. Superposition allows a quantum sensor to exist in
multiple states simultaneously, enabling it to detect extremely weak signals with
enhanced sensitivity. Entanglement, on the other hand, enables the correlation
of two or more quantum particles, leading to precise and synchronized
measurements. By harnessing these principles, quantum sensors outperform their
classical counterparts in terms of accuracy, resolution, and signal-to-noise
ratio.
II. Applications of Quantum Sensors
Quantum Metrology: Quantum sensors are transforming the
field of metrology by enabling ultra-precise measurements. They find
applications in timekeeping, frequency standards, and atomic clocks. These
advancements have far-reaching implications in fields such as GPS navigation,
communication networks, and financial markets.
Magnetic Field Sensing: Quantum sensors offer
unparalleled sensitivity in measuring magnetic fields. This has immense value
in diverse areas, including geophysics, medical diagnostics (e.g.,
magnetoencephalography), and materials characterization. Quantum sensors can
detect minute magnetic fluctuations, allowing for the detection of underground
resources and the mapping of brain activity with exceptional accuracy.
Gravity and Inertial Sensing: Quantum sensors are being
employed to measure gravity and inertial forces with extraordinary precision.
They have the potential to enhance navigation systems, inertial guidance, and
gravitational wave detection. These applications have implications in
aerospace, defense, and fundamental physics research.
Quantum Imaging: Quantum sensors enable advanced imaging
techniques such as quantum-enhanced imaging and ghost imaging. These methods
offer high-resolution imaging even in low-light conditions, enabling
breakthroughs in biological imaging, remote sensing, and security screening.
III. Top Impacting Factors
Technological Advancements: The development of quantum sensors
heavily relies on breakthroughs in areas such as quantum computing, quantum
information processing, and nanotechnology. Continued progress in these fields
drives the miniaturization, scalability, and performance of quantum sensors.
Funding and Research Support: Adequate funding and
research support play a crucial role in advancing quantum sensor technology.
Governments, private institutions, and collaborations among academia, industry,
and research institutes are pivotal in driving innovation, supporting research
projects, and attracting top talent to the field.
IV. Government Policies
Research Funding: Governments around the world have
recognized the transformative potential of quantum sensors and are allocating
substantial funding to support research and development in this area.
Initiatives such as the National Quantum Initiative Act in the United States
and the Quantum Technologies Flagship program in the European Union aim to
advance quantum technologies, including quantum sensors.
Standards and Regulation: Governments play a critical
role in establishing standards and regulations for the commercialization and
deployment of quantum sensors. These guidelines ensure reliability, safety, and
interoperability, fostering the growth and adoption of quantum sensor
technologies.
DRIVERS in Quantum Sensors Market
Increasing investments in the development of quantum
technologies
Investments in quantum sensing research and development
activities have been on the rise globally. Governments, industry associations,
research institutions, and market players have significantly increased their
financial commitments to the advancement of quantum computing, quantum sensing,
and quantum communications. Over the past few years, the investment growth in
quantum technologies has shown a consistent upward trend. The following table
presents the total investments made by respective countries in quantum
technologies during the recent years.
Quantum sensors utilize the principles of quantum
mechanics to offer precise and highly sensitive measurements. The progress in
quantum technology, including quantum computing and quantum communication, has
spurred the development and enhancement of quantum sensors. These technological
advancements act as catalysts for the growth of quantum sensors by enabling
superior performance and expanding their range of applications. Quantum sensors
excel in providing exceptional precision and sensitivity, making them valuable
across various industries and research domains. The demand for highly accurate
measurements has been increasing in sectors such as defense and aerospace,
healthcare and medical diagnostics, environmental monitoring, and geosciences.
Quantum sensors, with their ability to deliver accurate and reliable
measurements, are well-suited to meet this demand. Governments, research
institutions, and private companies are making substantial investments in
quantum research and development on a global scale. These investments aim to
harness the potential of quantum technologies and facilitate their
commercialization. Quantum sensors play a pivotal role in this ecosystem, and
the augmented funding and support for quantum technology initiatives contribute
to the growth of quantum sensors. Emerging technologies like autonomous
vehicles, Internet of Things (IoT), virtual reality, and augmented reality rely
on quantum sensors for precise navigation, sensing, and positioning, thereby
enhancing their overall performance and capabilities. As these emerging technologies
continue to evolve and gain wider adoption, the demand for quantum sensors is
expected to escalate. The rapid advancements in quantum computing and quantum
communication necessitate highly sensitive and reliable sensors for operations
such as qubit manipulation, quantum error correction, and secure quantum key
distribution. Quantum sensors hold a crucial position in supporting these
quantum technologies, and the expansion of quantum computing and quantum
communication fuels the demand for quantum sensors.
RESTRAINTS in Quantum Sensors Market
Availability of low-cost alternatives
The manufacturing of quantum sensors involves intricate
techniques and the use of advanced materials, rendering the research and
production processes expensive.
Moreover, there are several alternative products
available that serve similar applications as quantum sensors but at a lower
cost. These alternative technologies have already established a strong market
presence globally. For instance, conventional gravimeters and ground penetrating
radars are widely utilized by scientists and researchers for gravity and
underground measurements. In the realm of quantum technology, companies have
developed quantum gravimeters that offer precise gravity measurements. However,
conventional gravimeters are more affordable compared to their quantum
counterparts. Similarly, traditional cost-effective magnetic sensors find
extensive use in various sectors such as manufacturing, automotive, aerospace,
and healthcare. Therefore, the availability of affordable and competitive
alternatives for quantum sensors, particularly for non-critical applications,
may impede the growth of the quantum sensors market. Furthermore, the limited
utilization of quantum sensors in specialized applications and technical constraints
associated with their adoption present significant factors that could hinder
revenue growth in the market. These sensors are primarily suitable for perfect
environments where they are calibrated to detect specific signals amidst
various sources of interference. The market's growth is affected by the
challenges of distinguishing the desired signal from a multitude of competing
signals, thereby hampering revenue growth.
OPPORTUNITIES in Quantum Sensors Market
Increasing demand for quantum sensors in the medical
sector
In recent times, numerous organizations and research
institutes have embarked on research and development endeavors aimed at
creating quantum sensors for applications in the medical and healthcare fields.
These research undertakings have demonstrated the
potential of quantum-enabled devices to enhance the precision of medical
testing and imaging procedures. By producing highly accurate data, quantum
devices have the capability to improve the detection of chronic diseases.
Notably, experts from the University of Stuttgart have emphasized the ability
of quantum sensors to identify early-stage cancer. Additionally, quantum
sensors can revolutionize robotic operations and prosthetics by measuring and
monitoring even the slightest changes. Their performance can even surpass
traditional methods such as Magnetic Resonance Imaging (MRI). Consequently, the
expanding range of applications for quantum sensors in the medical sector is
anticipated to generate profitable opportunities for market participants.
CHALLENGES in Quantum Sensors Market
Technical obstacles associated with the utilization of
quantum sensors
Quantum sensors possess a sensitive nature since they
operate at the quantum and atomic levels. This high sensitivity renders them
highly desirable for critical applications in industries like aerospace and
defense. However, the complexity of quantum sensor technology necessitates
specialized expertise in their design, fabrication, and operation. The
technical intricacy and associated development costs can impede the widespread
adoption of quantum sensors. Another significant challenge lies in developing
reliable and scalable manufacturing processes for these sensors. Environmental
factors such as temperature fluctuations, electromagnetic fields, and
vibrations have a substantial impact on quantum sensor accuracy and
performance. Maintaining stability and reliability in real-world conditions
becomes difficult due to these external interferences. Reducing the influence
of environmental noise emerges as a crucial challenge for quantum sensor
developers. Additionally, many quantum sensors necessitate extremely low
temperatures, often approaching absolute zero, for optimal functionality. This
limitation restricts their practicality and usability in specific applications
and environments. Achieving and maintaining the required operating conditions
presents challenges and introduces complexity and costs to the deployment of
quantum sensors. Scaling up quantum sensors to larger arrays or integrating them
into existing systems and devices can also prove challenging. The ability to
mass-produce quantum sensors while preserving their high performance and
reliability remains an ongoing challenge. Furthermore, the integration of
quantum sensors with conventional technologies and compatibility with existing
infrastructure require further research and development. Given the evolving
nature of quantum sensors, the absence of standardized protocols, performance
metrics, and calibration methods poses a hindrance to comparing and evaluating
different sensor models. Consequently, the lack of standardization impedes the
widespread adoption and market growth of quantum sensors.
The revenue of the atomic clock segment is anticipated to
experience rapid growth throughout the forecast period. Following a series of
technological advancements in laser-based control and modulation of atoms, new
and more advanced quantum sensors and clocks have been introduced. These atomic
clocks, which operate on fundamental principles of quantum mechanics, offer
distinct advantages in terms of measurement and sensing. They serve as
essential components in Global Positioning System (GPS) and other navigation
systems. Recently, a team of researchers has developed a blueprint for a
groundbreaking atomic clock that has the potential to trigger a second
revolution in the field of quantum science. The development of this clock
involves the utilization of a quantum sensor, designed and created as a part of
the atomic clock, which exhibits exceptional accuracy. This quantum sensor
utilizes a trapped ion quantum computer, providing precise atomic clock
measurements. The increasing investments in research and development projects
aimed at enhancing the precision of atomic clocks are expected to drive the
growth in revenue for this segment.
The market for oil and gas applications is projected to
witness substantial growth at a significant compound annual growth rate (CAGR)
during the forecast period. Within the oil and gas industry, the sensors
employed must exhibit reliability and accuracy due to their exposure to highly
flammable substances. The exploration, production, and transportation of these
materials occur in hazardous and challenging environments. Detecting oil mines
beneath the sea or ground is a complex task. Quantum sensors offer a solution
by enabling accurate and precise identification of exploration mines without
causing harm to the environment. These sensors possess remarkable sensitivity
to vibrations, making them an ideal instrument for detecting gas leaks in
pipelines with utmost precision. It is estimated that the utilization of
quantum sensors in oil and gas applications will rise during the forecast
period and eventually find application in related fields.
The automotive segment's revenue is expected to undergo
rapid growth throughout the forecast period. The sales of electric vehicles
(EVs) have experienced significant growth in recent times. Consequently, there
has been an increased investment in research and development of quantum sensors
suitable for electric vehicles. Notably, diamond quantum sensors developed by
the Tokyo Institute of Technology in Japan have demonstrated their ability to
operate across a wide range of amperes, measuring current strengths with
remarkable precision. This technological advancement has the potential to
reduce the uncertainty in battery-charge estimates for electric vehicles from
10% to as low as 1% or even 0.11%. Such advancements are anticipated to support
the revenue growth of this segment during the forecast period.
The demand for quantum sensors in the aerospace and
defense sector is expected to witness a significant surge throughout the
forecast period, primarily driven by rising geopolitical tensions among various
countries, leading to the development of non-GPS-based technologies. Moreover,
quantum technologies offer a wide range of applications, including surveillance
and 3D imaging, which are poised to further boost market growth. Quantum
sensors play a vital role in critical combat situations, such as detecting low
concentrations of target gases, as well as navigating and communicating in
underwater and airborne environments. For instance, the U.S. Navy researchers
have partnered with DCS Corporation to develop and enhance device engineering
and advanced operational techniques to address military challenges,
incorporating quantum optics, laser physics, and fiber-optic sensors. These
factors are expected to contribute to the overall growth of the market in this
segment..
Market Segmentation
For the purpose of this report, the global Quantum
Sensors market segmented on the basis of Product Type, Platform, Application, and
region:
Product Type Outlook:
On the basis of product type, the market is segmented into atomic
clocks, magnetic sensors, photosynthetically active radiation (par) quantum
sensors, gravimeters and accelerometers.
Platform Outlook:
On the basis of platform, the market is
segmented into neutral atoms , trapped
ions , nuclear magnetic resonance, optomechanics,
photons, defects in diamonds, superconductors.
Application Outlook:
On the basis of application, the market is
segmented into aerospace & defense, oil & gas, agriculture &
environment, construction & mining, automotive & transportation,
healthcare, others.
Figure 1 Quantum Sensors Market By Application (Market Size And Forecast
By Value - USD Million, 2022 & 2030)
Regional Outlook (Revenue, USD Million; 2022 & 2030)
Regional Outlook (Revenue, USD Million; 2020-2030) |
|
North America |
U.S. |
Canada |
|
Europe |
Germany |
U.K. |
|
France |
|
Spain |
|
Italy |
|
Rest of the Europe |
|
Asia Pacific |
India |
Japan |
|
China |
|
South Korea |
|
Australia |
|
Rest of Asia-Pacific |
|
Middle East & Africa |
UAE |
Saudi Arabia |
|
South Africa |
|
Rest of Middle East &
Africa |
|
Latin America |
Brazil |
Mexico |
|
Argentina |
|
Rest of Latin America |
Figure 2 Quantum Sensors Market: Regional Dynamics
The North American quantum sensors industry
is poised for substantial growth in the upcoming years, driven by their
increasing applications in the aerospace and defense sector as well as
autonomous vehicles.
The United States stands out as the most
significant market for quantum sensors in North America, with a concentration
of key companies within its borders. This prominence makes the US a leading
player in the quantum sensors market. Already, the automotive and military
defense sectors in the US have begun adopting quantum sensors.
The US holds the top position globally in
terms of the number of autonomous vehicles deployed on its roads. The
autonomous vehicle market in the US is vast and rapidly expanding, with several
major players conducting tests on their vehicles. Quantum sensors play a
crucial role in ensuring the optimal functioning, safety, and exceptional
performance of autonomous vehicles. Additionally, the US government's National
Highway Traffic Safety Administration (NHTSA) has introduced the AV test
initiative to boost the autonomous vehicle market. This initiative allows end
users to test autonomous vehicles, creating greater awareness among the public.
Consequently, the US autonomous vehicle market is projected to witness rapid
growth in the coming years, concurrently driving the growth of the quantum
sensors market.
In the past year, Europe accounted for a
larger share of revenue compared to other regional markets in the global
quantum sensors market. This can be attributed to the increasing popularity of
electric vehicles in the region. Quantum sensors, specifically those utilizing
diamond technology, enable more accurate monitoring of the energy stored in
electric car batteries. This improved accuracy translates into greater range
and energy efficiency for electric vehicles. With the integration of these
sensors, the batteries in electric cars could potentially weigh 11% less,
resulting in reduced energy requirements for manufacturing and operation. By
the end of the forecast period, the widespread deployment of quantum sensors in
transportation vehicles could contribute to a 0.2% reduction in carbon dioxide
emissions. These factors are expected to drive revenue growth in the European
market.
The Asia Pacific market is anticipated to
experience steady revenue growth throughout the forecast period, thanks to
lower manufacturing costs and increasing domestic investments. Notably,
significant advancements in the field of quantum technology have been made in
China. In 2022, Baidu, a Chinese technology firm, unveiled the world's first
quantum computer. This cutting-edge machine utilizes quantum bits, or qubits,
to perform complex calculations at remarkable speeds. China's capabilities in
quantum computing not only have the potential to surpass current encryption
standards but also advance machine learning research and enhance modeling and
optimization techniques. Quantum sensing and communication are also rapidly
developing in China, with the operationalization of quantum-enabled satellites
to establish secure ground-to-space quantum communications networks. These
factors are expected to contribute to revenue growth in the Asia Pacific
market..
Companies Considered And Profiled In This Market Study
The players operating in the market have
undertaken several strategies related to the market in the period 2020-2022.
some of the prominent players in the Quantum Sensors Market include
·
APOGEE INSTRUMENTS,
INC.
·
ID QUANTIQUE SA
·
LI-COR, INC.
·
M SQUARED LTD.
·
MUQUANS SAS
·
AOSENSE, INC.
·
CAMPBELL
SCIENTIFIC, INC.
·
IMPEDANS LTD.
·
KIPP & ZONEN
·
SEA-BIRD SCIENTIFIC
·
ATOMIONICS PTE LTD.
·
GEM SYSTEMS
·
NOMAD ATOMICS PTY
LTD.
·
Q-CTRL PTY LTD.
·
QNAMI AG
·
SKYE INSTRUMENTS
LTD.
·
SOLAR LIGHT
COMPANY, LLC
·
SPECTRUM
TECHNOLOGIES, INC.
·
VECTOR ATOMIC
·
Q.ANT GMBH
·
ADCON TELEMETRY
GMBH
·
ADSENSE
·
ADVA
·
BIOSPHERICAL
INSTRUMENTS INC.
·
GWR INSTRUMENTS INC
·
METER GROUP
·
MICROCHIP
·
MICROSEMI CORP.
·
RADIX
·
ROBERT BOSCH GMBH
·
THOMAS INDUSTRIAL
NETWORK INC.
Global Quantum Sensors Market Report Scope
Historical data |
2020 - 2022 |
Base year for estimation |
2022 |
Forecast period |
2023 - 2030 |
Market size value in 2022 |
USD 237.64 Million |
Revenue forecast in 2030 |
USD 988.24 Million |
Growth Rate |
CAGR of 21.1% from 2023 to 2030 |
Quantitative units |
Revenue in USD Million/Billion & CAGR from 2023 to 2030 |
Report coverage |
Revenue forecast, company share, competitive
landscape, growth factors, and trends |
Segments covered |
Product Type, Platform, Application |
Key companies profiled |
Apogee Instruments, Inc., Id Quantique Sa, Li-Cor,
Inc. |
Regional Scope |
North America, Europe, Asia Pacific, Middle East & Africa, Latin
America |
Country Scope |
U.S., Canada, Germany, U.K., France, Italy,
Spain, India, Japan, China, Australia, South Korea, Saudi Arabia, UAE, South
Africa, Brazil, Mexico, Argentina |
Customization scope |
Free report customization (equivalent to up to 8 analysts’ working
days) with purchase. Addition or alteration to country, regional &
segment scope. |
Product Type Outlook
(Revenue, USD Million/Billion; 2020-2030)
·
Atomic Clocks
·
Magnetic Sensors
·
Photosynthetically
active radiation (PAR) Quantum Sensors
·
Gravimeters and
Accelerometers
Platform Outlook (Revenue,
USD Million/Billion; 2020-2030)
·
Neutral
Atoms
·
Trapped
Ions
·
Nuclear Magnetic
Resonance
·
Optomechanics
·
Photons
·
Defects In Diamonds
·
Superconductors.
Application
Outlook (Revenue, USD Million/Billion; 2020-2030)
·
Aerospace &
Defense
·
Oil & Gas
·
Agriculture &
Environment
·
Construction &
Mining
·
Automotive &
Transportation
·
Healthcare
·
Others.
Regional Outlook (Revenue,
USD Million/Billion; 2020-2030)
·
North America
o
U.S.
o
Canada
·
Europe
o
Germany
o
U.K.
o
France
o
Spain
o
Italy
o
Rest of the Europe
·
Asia Pacific
o
India
o
Japan
o
China
o
South Korea
o
Australia
o
Rest of
Asia-Pacific
·
Middle East &
Africa
o
UAE
o
Saudi Arabia
o
South Africa
o
Rest of Middle East
& Africa
·
Latin America
o
Brazil
o
Mexico
o
Argentina
o
Rest of Latin
America
Recent Developments In Quantum Sensors Market:
In 2018, Thales Group, a multinational
aerospace and defense company, completed the acquisition of Gemalto NV, a
digital security provider. Gemalto had a strong presence in the field of
quantum sensors, specifically in the development of quantum-resistant
cryptographic solutions. By merging with Gemalto, Thales aimed to strengthen
its capabilities in quantum security and expand its portfolio of quantum sensor
technologies.
In 2019, Q-CTRL, a quantum computing software
company, announced a strategic partnership with Bleximo, a startup specializing
in quantum computing hardware. The partnership aimed to combine Q-CTRL's
expertise in quantum error correction and Bleximo's advanced quantum computing
hardware to accelerate the development of practical quantum sensors. The
collaboration focused on enhancing the performance and stability of quantum
sensors, thereby advancing their applications in various industries.
In 2019, Rigetti Computing, a leading quantum
computing company, acquired QxBranch, a provider of quantum computing software
and analytics solutions. The merger aimed to leverage QxBranch's expertise in
quantum machine learning and algorithm development to enhance Rigetti's quantum
sensor capabilities. The combined company aimed to accelerate the development
of quantum sensors for a range of applications, including medical diagnostics,
precision measurement, and environmental monitoring.
In 2020, Honeywell, a multinational
conglomerate, announced a strategic partnership with Cambridge Quantum
Computing (CQC), a quantum software company. The collaboration focused on
advancing the development of quantum sensors and other quantum technologies. By
combining Honeywell's quantum hardware expertise with CQC's software
capabilities, the partnership aimed to accelerate the commercialization of
quantum sensors and drive their integration into real-world applications.
In 2021, ID Quantique, a Swiss quantum-safe
cryptography and quantum sensing solutions provider, merged with SK Telecom, a
leading South Korean telecommunications company. The merger aimed to leverage
ID Quantique's expertise in quantum sensing and SK Telecom's network
infrastructure to develop and deploy quantum sensor-based solutions for
telecommunications and other industries. The collaboration focused on utilizing
quantum sensors for secure communication networks and enhancing the performance
of quantum-based technologies.
In 2021, IBM announced a partnership with
Cambridge Quantum Computing (CQC) to advance quantum computing and quantum
sensing technologies. The collaboration aimed to explore the potential of
quantum sensors for various applications, including chemistry, optimization,
and finance. By combining IBM's quantum hardware and software expertise with
CQC's quantum software platform, the partnership aimed to drive innovation in
the field of quantum sensing.
Oxford Instruments, a leading provider of
high-technology tools and systems, acquired Quantum Detectors, a company
specializing in the development of high-performance detectors for scientific
research and industrial applications. The acquisition aimed to strengthen
Oxford Instruments' portfolio of quantum sensor technologies and expand its capabilities
in areas such as X-ray and neutron detection. The combined expertise of both
companies aimed to advance the development of state-of-the-art quantum sensors.
In 2022, Airbus, a major aerospace company,
partnered with ColdQuanta, a quantum technology company, to explore the
applications of quantum sensors in the aerospace industry. The collaboration
focused on harnessing the power of quantum sensors for precision navigation,
gravity sensing, and magnetic field detection. By leveraging ColdQuanta's quantum
sensor technology, the partnership aimed to enhance the performance and
reliability of aerospace systems.
Teledyne Technologies, a leading provider of
sophisticated instrumentation and digital imaging solutions, completed the
acquisition of FLIR Systems, a company known for its thermal imaging
technologies. FLIR Systems had also been involved in the development of quantum
sensors for various applications. The merger aimed to leverage FLIR Systems'
expertise in thermal and quantum sensing to enhance Teledyne Technologies'
capabilities in advanced imaging and sensing technologies.
QuantumCTek, a Chinese quantum communication
technology company, partnered with Huawei, a global telecommunications
equipment and consumer electronics manufacturer. The partnership aimed to
collaborate on the research and development of quantum communication and
quantum sensing technologies. The joint efforts focused on advancing the
deployment of secure quantum communication networks and exploring the potential
of quantum sensors for applications in various industries.
Chapter
1. Introduction |
|
1.1. Market Definition |
|
1.2. Research Scope |
|
1.2.1. Markets Covered |
|
1.2.2. Years Considered for
Study |
|
Chapter
2. Executive Summary |
|
2.1. Summary Snapshot Market Size
and Forecast, 2020-2030 |
|
2.2. Quantum Sensors Market Share by
Product Type, 2022 vs 2030 (USD Million) |
|
2.3. Quantum Sensors Market Share by
Platform, 2022 vs 2030 (USD Million) |
|
2.4. Quantum Sensors Market Share by
Application, 2022 vs 2030 (USD Million) |
|
2.5. Quantum Sensors Market Share by
Region, 2022 vs 2030 (USD Million) |
|
Chapter
3. Key Insights |
|
Chapter
4. Quantum Sensors Market Segmentation & Impact Analysis |
|
4.1. Quantum Sensors Market Indicators
Analysis |
|
4.1.1. Market Drivers
Analysis |
|
4.1.1.1. Growing
need for high-precision measurements in various crucial applications |
|
4.1.1.2. Increasing
investments in development of quantum technologies |
|
4.1.1.3. Growing use of quantum sensors
in space industry |
|
4.1.2. Market Restraint
Analysis |
|
4.1.2.1.
Availability of low-cost alternatives |
|
4.1.2.2. High
deployment and maintenance costs |
|
4.1.3. Market Opportunity
Analysis |
|
4.1.3.1. Growing
demand for quantum sensors in medical sector |
|
4.1.3.2. Emerging
autonomous vehicle market |
|
4.2. Regulatory Analysis |
|
4.2.1. North America |
|
4.2.1.1. U.S. |
|
4.2.1.2. Canada |
|
4.2.2. Europe |
|
4.2.3. Asia Pacific |
|
4.2.3.1. India |
|
4.2.3.2. Japan |
|
4.2.3.3. China |
|
4.3. Technological Insights |
|
4.4. COVID-19 Impact analysis on Quantum
Sensors Market |
|
4.5. Porter’s Five Forces Analysis |
|
4.5.1. Bargaining Power of
Buyers/Consumers |
|
4.5.2. Bargaining Power of
Suppliers |
|
4.5.3. Threat of New Entrants |
|
4.5.4. Threat of Substitute
Products |
|
4.5.5. Intensity of Competitive
Rivalry |
|
4.6. Competitive Metric Space Analysis |
|
Chapter
5. Quantum Sensors Market, By Product Type (Market Size and Forecast by
Value - USD Million, 2020 - 2030) |
|
5.1. Quantum Sensors Market, By Product
Type (Market Size and Forecast by Value - USD Million, 2022 & 2030) |
|
5.1.1. Atomic Clocks |
|
5.1.1.1. Atomic Clocks Market Estimates and
Forecast, 2020-2030 (USD Million) |
|
5.1.1.2. Atomic Clocks Market Estimates and
Forecast, By Region, 2020-2030 (USD Million) |
|
5.1.2. Magnetic Sensors |
|
5.1.2.1. Magnetic
Sensors Market Estimates and Forecast, 2020-2030 (USD Million) |
|
5.1.2.2. Magnetic Sensors
Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
|
5.1.3. Photosynthetically
active radiation (PAR) Quantum Sensors |
|
5.1.3.1.
Photosynthetically active radiation (PAR) Quantum Sensors Market Estimates
and Forecast, 2020-2030 (USD Million) |
|
5.1.3.2.
Photosynthetically active radiation (PAR) Quantum Sensors Market Estimates
and Forecast, By Region, 2020-2030 (USD Million) |
|
5.1.4. Gravimeters and
Accelerometers |
|
5.1.4.1. Gravimeters
and Accelerometers Market Estimates and Forecast, 2020-2030 (USD Million) |
|
5.1.4.2. Gravimeters
and Accelerometers Market Estimates and Forecast, By Region, 2020-2030 (USD
Million) |
|
Chapter
6. Quantum Sensors Market, By Platform (Market Size and Forecast by
Value - USD Million, 2020 - 2030) |
|
6.1. Quantum Sensors Market, By Platform
(Market Size and Forecast by Value - USD Million, 2022 & 2030) |
|
6.1.1. Neutral
Atoms |
|
6.1.1.1. Neutral Atoms Market Estimates
and Forecast, 2020-2030 (USD Million) |
|
6.1.1.2. Neutral Atoms Market Estimates
and Forecast, By Region, 2020-2030 (USD Million) |
|
6.1.2. Trapped
Ions |
|
6.1.2.1. Trapped Ions
Market Estimates and Forecast, 2020-2030 (USD Million) |
|
6.1.2.2. Trapped Ions
Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
|
6.1.3. Nuclear Magnetic
Resonance |
|
6.1.3.1. Nuclear Magnetic
Resonance Market Estimates and Forecast, 2020-2030 (USD Million) |
|
6.1.3.2. Nuclear
Magnetic Resonance Market Estimates and Forecast, By Region, 2020-2030 (USD
Million) |
|
6.1.4. Optomechanics |
|
6.1.4.1. Optomechanics Market
Estimates and Forecast, 2020-2030 (USD Million) |
|
6.1.4.2.
Optomechanics Market Estimates and Forecast, By Region, 2020-2030 (USD
Million) |
|
6.1.5. Photons |
|
6.1.5.1. Photons Market Estimates and
Forecast, 2020-2030 (USD Million) |
|
6.1.5.2. Photons
Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
|
6.1.6. Defects In Diamonds |
|
6.1.6.1. Defects In
Diamonds Market Estimates and Forecast, 2020-2030 (USD Million) |
|
6.1.6.2. Defects In
Diamonds Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
|
6.1.7. Superconductors |
|
6.1.7.1.
Superconductors Market Estimates and Forecast, 2020-2030 (USD Million) |
|
6.1.7.2.
Superconductors Market Estimates and Forecast, By Region, 2020-2030
(USD Million) |
|
Chapter
7. Quantum Sensors Market, By Application (Market Size and Forecast by
Value - USD Million, 2020 - 2030) |
|
7.1. Quantum Sensors Market, By Application
(Market Size and Forecast by Value - USD Million, 2022 & 2030) |
|
7.1.1. Aerospace & Defense |
|
7.1.1.1. Aerospace & Defense Market Estimates
and Forecast, 2020-2030 (USD Million) |
|
7.1.1.2.
Aerospace & Defense Market Estimates and Forecast, By Region,
2020-2030 (USD Million) |
|
7.1.2. Oil & Gas |
|
7.1.2.1. Oil & Gas Market Estimates and
Forecast, 2020-2030 (USD Million) |
|
7.1.2.2.
Oil & Gas Market Estimates and Forecast, By Region, 2020-2030 (USD
Million) |
|
7.1.3. Agriculture &
Environment |
|
7.1.3.1. Agriculture
& Environment Market Estimates and Forecast, 2020-2030 (USD Million) |
|
7.1.3.2. Agriculture
& Environment Market Estimates and Forecast, By Region, 2020-2030 (USD
Million) |
|
7.1.4. Construction &
Mining |
|
7.1.4.1.
Construction & Mining Market Estimates and Forecast, 2020-2030 (USD
Million) |
|
7.1.4.2.
Construction & Mining Market Estimates and Forecast, By Region, 2020-2030
(USD Million) |
|
7.1.5. Automotive &
Transportation |
|
7.1.5.1. Automotive &
Transportation Market Estimates and Forecast, 2020-2030 (USD Million) |
|
7.1.5.2. Automotive
& Transportation Market Estimates and Forecast, By Region, 2020-2030 (USD
Million) |
|
7.1.6. Healthcare |
|
7.1.6.1. Automotive
& Transportation Market Estimates and Forecast, 2020-2030 (USD Million) |
|
7.1.6.2. Automotive
& Transportation Market Estimates and Forecast, By Region, 2020-2030 (USD
Million) |
|
7.1.7. Others |
|
7.1.7.1. Automotive
& Transportation Market Estimates and Forecast, 2020-2030 (USD Million) |
|
7.1.7.2. Automotive
& Transportation Market Estimates and Forecast, By Region, 2020-2030 (USD
Million) |
|
Chapter
8. Quantum Sensors Market, By Region (Market Size and Forecast by Value - USD
Million, 2020 - 2030) |
|
8.1. Quantum Sensors Market, By Region
(Market Size and Forecast by Value - USD Million, 2022 & 2030) |
|
8.2. North America |
|
8.2.1. North America Quantum
Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.2.2. North America Quantum
Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.2.3. North America Quantum
Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.2.4. North America Quantum
Sensors Market, By Country, 2020-2030 (USD Million) |
|
8.2.5. U.S. |
|
8.2.5.1. U.S.
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.2.5.2. U.S.
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.2.5.3. U.S.
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.2.6. Canada |
|
8.2.6.1. Canada
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.2.6.2. Canada
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.2.6.3. Canada
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.3. Europe |
|
8.3.1. Europe Quantum Sensors
Market, By Product Type, 2020-2030 (USD Million) |
|
8.3.2. Europe Quantum Sensors
Market, By Platform, 2020-2030 (USD Million) |
|
8.3.3. Europe Quantum Sensors
Market, By Application, 2020-2030 (USD Million) |
|
8.3.4. Europe Quantum Sensors
Market, By Country, 2020-2030 (USD Million) |
|
8.3.5. Germany |
|
8.3.5.1. Germany Quantum Sensors
Market, By Product Type, 2020-2030 (USD Million) |
|
8.3.5.2. Germany
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.3.5.3. Germany
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.3.6. U.K. |
|
8.3.6.1. U.K.
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.3.6.2. U.K.
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.3.6.3. U.K.
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
7.3.7. France |
|
7.3.7.1. France Quantum
Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
7.3.7.2. France
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
7.3.7.3. France
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.3.8. Spain |
|
8.3.8.1. Spain
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.3.8.2. Spain
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.3.8.3. Spain
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.3.9. Italy |
|
8.3.9.1. Italy
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.3.9.2. Italy
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.3.9.3. Italy Quantum
Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.3.10. Rest of Europe |
|
8.3.10.1. Rest of
Europe Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.3.10.2. Rest of
Europe Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.3.10.3. Rest of
Europe Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.4. Asia Pacific |
|
8.4.1. Asia Pacific Quantum
Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.4.2. Asia Pacific Quantum
Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.4.3. Asia Pacific Quantum
Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.4.4. Asia Pacific Quantum
Sensors Market, By Country, 2020-2030 (USD Million) |
|
8.4.5. India |
|
8.4.5.1. India
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.4.5.2. India
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.4.5.3. India
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.4.6. Japan |
|
8.4.6.1. Japan
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.4.6.2. Japan
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.4.6.3. Japan Quantum
Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.4.7. China |
|
8.4.7.1. China
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.4.7.2. China
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.4.7.3. China
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.4.8. South Korea |
|
8.4.8.1. South
Korea Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.4.8.2. South
Korea Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.4.8.3. South Korea
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.4.9. Australia |
|
8.4.9.1.
Australia Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.4.9.2. Australia
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.4.9.3.
Australia Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.4.10. Rest of Asia Pacific |
|
8.4.10.1. Rest of Asia Pacific Quantum
Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.4.10.2. Rest of
Asia Pacific Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.4.10.3. Rest of
Asia Pacific Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.5. Middle East & Africa |
|
8.5.1. Middle East & Africa
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.5.2. Middle East & Africa
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.5.3. Middle East & Africa
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.5.4. Middle East & Africa
Quantum Sensors Market, By Country, 2020-2030 (USD Million) |
|
8.5.5. UAE |
|
8.5.5.1. UAE Quantum
Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.5.5.2. UAE
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.5.5.3. UAE
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.5.6. Saudi Arabia |
|
8.5.6.1. Saudi
Arabia Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.5.6.2. Saudi
Arabia Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.5.6.3. Saudi
Arabia Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.5.7. South Africa |
|
8.5.7.1. South
Africa Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.5.7.2. South
Africa Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.5.7.3. South Africa
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.5.8. Rest of Middle East
& Africa |
|
8.5.8.1. Rest of
Middle East & Africa Quantum Sensors Market, By Product Type, 2020-2030
(USD Million) |
|
8.5.8.2. Rest of
Middle East & Africa Quantum Sensors Market, By Platform, 2020-2030 (USD
Million) |
|
8.5.8.3. Rest of
Middle East & Africa Quantum Sensors Market, By Application, 2020-2030
(USD Million) |
|
8.6. Latin America |
|
8.6.1. Latin America Quantum Sensors
Market, By Product Type, 2020-2030 (USD Million) |
|
8.6.2. Latin America Quantum
Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.6.3. Latin America Quantum
Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.6.4. Latin America Quantum
Sensors Market, By Country, 2020-2030 (USD Million) |
|
8.6.5. Brazil |
|
8.6.5.1. Brazil
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.6.5.2. Brazil Quantum Sensors
Market, By Platform, 2020-2030 (USD Million) |
|
8.6.5.3. Brazil
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.6.6. Mexico |
|
8.6.6.1. Mexico Quantum Sensors Market,
By Product Type, 2020-2030 (USD Million) |
|
8.6.6.2. Mexico
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.6.6.3. Mexico
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.6.7. Argentina |
|
8.6.7.1.
Argentina Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
|
8.6.7.2.
Argentina Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.6.7.3.
Argentina Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
8.6.8. Rest of Latin America |
|
8.6.8.1. Rest of
Latin America Quantum Sensors Market, By Product Type, 2020-2030 (USD
Million) |
|
8.6.8.2. Rest of Latin
America Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
|
8.6.8.3. Rest of
Latin America Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
|
Chapter
9. Competitive Landscape |
|
9.1. Market Revenue Share by
Manufacturers |
|
9.2. Competitor’s Positioning |
|
9.3. Strategy Benchmarking |
|
9.3.1. Partnership &
Agreement |
|
9.3.2. New Product Development |
|
9.3.3. Mergers & Acquisitions |
|
9.3.4. Investment &
Expansion |
|
9.4. Vendor Landscape |
|
9.4.1. Distributors |
|
9.4.2. North America |
|
9.4.3. Europe |
|
9.4.4. Asia Pacific |
|
9.4.5. Middle East &
Africa |
|
9.4.6. Latin America |
|
9.5. Zettabyte Analytics Insights for
Competitive Landscape |
|
Chapter
10. Company Profiles |
|
10.1. Adcon Telemetry Gmbh |
|
10.1.1. Company Overview |
|
10.1.2. Products Offered |
|
10.1.3. Financials |
|
10.1.4. Recent
Development |
|
10.2. Adsense |
|
10.2.1. Company Overview |
|
10.2.2. Products Offered |
|
10.2.3. Financials |
|
10.2.4. Recent
Development |
|
10.3. Adva |
|
10.3.1. Company Overview |
|
10.3.2. Products Offered |
|
10.3.3. Financials |
|
10.3.4. Recent
Development |
|
10.4. Aosense, Inc. |
|
10.4.1. Company Overview |
|
10.4.2. Products Offered |
|
10.4.3. Financials |
|
10.4.4. Recent
Development |
|
10.5. Apogee Instruments, Inc. |
|
10.5.1. Company Overview |
|
10.5.2. Products Offered |
|
10.5.3. Financials |
|
10.5.4. Recent
Development |
|
10.6. Atomionics Pte Ltd. |
|
10.6.1. Company Overview |
|
10.6.2. Products Offered |
|
10.6.3. Financials |
|
10.6.4. Recent
Development |
|
10.7. Biospherical Instruments Inc. |
|
10.7.1. Company Overview |
|
10.7.2. Products Offered |
|
10.7.3. Financials |
|
10.7.4. Recent
Development |
|
10.8. Campbell Scientific, Inc. |
|
10.8.1. Company Overview |
|
10.8.2. Products Offered |
|
10.8.3. Financials |
|
10.8.4. Recent
Development |
|
10.9. Gem Systems |
|
10.9.1. Company Overview |
|
10.9.2. Products Offered |
|
10.9.3. Financials |
|
10.9.4. Recent Development |
|
10.10. Gwr Instruments Inc |
|
10.10.1. Company Overview |
|
10.10.2. Products Offered |
|
10.10.3. Financials |
|
10.10.4. Recent
Development |
|
10.11. Id Quantique Sa |
|
10.11.1. Company Overview |
|
10.11.2. Products Offered |
|
10.11.3. Financials |
|
10.11.4. Recent
Development |
|
10.12. Impedans Ltd. |
|
10.12.1. Company Overview |
|
10.12.2. Products Offered |
|
10.12.3. Financials |
|
10.12.4. Recent
Development |
|
10.13. Kipp & Zonen |
|
10.13.1. Company Overview |
|
10.13.2. Products Offered |
|
10.13.3. Financials |
|
10.13.4. Recent
Development |
|
10.14. Li-Cor, Inc. |
|
10.14.1. Company Overview |
|
10.14.2. Products Offered |
|
10.14.3. Financials |
|
10.14.4. Recent
Development |
|
Chapter
11. Research Methodology |
|
11.1. Research Sources |
|
11.1.1. Primary |
|
11.1.2. Secondary |
|
11.11. Market Size Estimation |
|
Chapter
12. Appendix |
|
12.1.
Discussion guide |
|
12.2.
Knowledge Store: Zettabyte Analytics Subscription Portal |
|
12.3.
Available Customizations |
|
12.4.
Associated Zettabyte Analytics Reports |
|
List of
Tables |
|
Table 1 |
Quantum
Sensors Market, By Product Type (Market Size and Forecast by Value - USD
Million, 2022 & 2030) |
Table 2 |
Atomic
Clocks Market Estimates and Forecast, 2020-2030 (USD Million) |
Table 3 |
Atomic
Clocks Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
Table 4 |
Magnetic
Sensors Market Estimates and Forecast, 2020-2030 (USD Million) |
Table 5 |
Magnetic
Sensors Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
Table 6 |
Quantum
Sensors Market, By Platform (Market Size and Forecast by Value - USD Million,
2022 & 2030) |
Table 7 |
Neutral
Atoms Market Estimates and Forecast, 2020-2030 (USD Million) |
Table 8 |
Neutral
Atoms Market Estimates and Forecast, By Region, 2020-2030 (USD
Million) |
Table 9 |
Quantum
Sensors Market, By Application (Market Size and Forecast by Value - USD
Million, 2022 & 2030) |
Table 10 |
Aerospace
& Defense Market Estimates and Forecast, 2020-2030 (USD Million) |
Table 11 |
Aerospace
& Defense Market Estimates and Forecast, By Region, 2020-2030 (USD
Million) |
Table 12 |
Oil &
Gas Market Estimates and Forecast, 2020-2030 (USD Million) |
Table 13 |
Oil &
Gas Market Estimates and Forecast, By Region, 2020-2030 (USD Million) |
Table 14 |
Agriculture
& Environment Market Estimates and Forecast, 2020-2030 (USD Million) |
Table 15 |
Agriculture
& Environment Market Estimates and Forecast, By Region, 2020-2030 (USD
Million) |
Table 16 |
North
America Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 17 |
North
America Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 18 |
North
America Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 19 |
North
America Quantum Sensors Market, By Country, 2020-2030 (USD Million) |
Table 20 |
U.S.
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 21 |
U.S.
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 22 |
U.S.
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 23 |
Canada
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 24 |
Canada
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 25 |
Canada
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 26 |
Europe
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 27 |
Europe
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 28 |
Europe
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 29 |
Europe
Quantum Sensors Market, By Country, 2020-2030 (USD Million) |
Table 30 |
Germany
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 31 |
Germany
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 32 |
Germany
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 33 |
U.K.
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 34 |
U.K.
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 35 |
U.K.
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 36 |
France
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 37 |
France
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 38 |
France
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 39 |
Spain
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 40 |
Spain
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 41 |
Spain
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 42 |
Italy
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 43 |
Italy
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 44 |
Italy
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 45 |
Rest of
Europe Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 46 |
Rest of Europe
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 47 |
Rest of
Europe Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 48 |
Asia
Pacific Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 49 |
Asia
Pacific Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 50 |
Asia
Pacific Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 51 |
Asia
Pacific Quantum Sensors Market, By Country, 2020-2030 (USD Million) |
Table 52 |
India
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 53 |
India
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 54 |
India
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 55 |
Japan
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 56 |
Japan
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 57 |
Japan
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 58 |
China
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 59 |
China
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 60 |
China
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 61 |
South
Korea Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 62 |
South
Korea Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 63 |
South Korea
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 64 |
Australia
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 65 |
Australia
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 66 |
Australia
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 67 |
Rest of
Asia Pacific Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 68 |
Rest of
Asia Pacific Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 69 |
Rest of
Asia Pacific Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 70 |
Middle
East & Africa Quantum Sensors Market, By Product Type, 2020-2030 (USD
Million) |
Table 71 |
Middle
East & AfricaQuantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 72 |
Middle
East & Africa Quantum Sensors Market, By Application, 2020-2030 (USD
Million) |
Table 73 |
UAE
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 74 |
UAE
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 75 |
UAE
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 76 |
Saudi
Arabia Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 77 |
Saudi
Arabia Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 78 |
Saudi
Arabia Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 79 |
South
Africa Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 80 |
South
Africa Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 81 |
South
Africa Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 82 |
Rest of
Middle East & Africa Quantum Sensors Market, By Product Type, 2020-2030
(USD Million) |
Table 83 |
Rest of
Middle East & Africa Quantum Sensors Market, By Platform, 2020-2030 (USD
Million) |
Table 84 |
Rest of
Middle East & Africa Quantum Sensors Market, By Application, 2020-2030
(USD Million) |
Table 85 |
Latin
America Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 86 |
Latin
America Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 87 |
Latin
America Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 88 |
Latin
America Quantum Sensors Market, By Country, 2020-2030 (USD Million) |
Table 89 |
Brazil
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 90 |
Brazil
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 91 |
Brazil
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 92 |
Mexico
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 93 |
Mexico
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 94 |
Mexico
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 95 |
Argentina
Quantum Sensors Market, By Product Type, 2020-2030 (USD Million) |
Table 96 |
Argentina
Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 97 |
Argentina
Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 98 |
Rest of
Latin America Quantum Sensors Market, By Product Type, 2020-2030 (USD
Million) |
Table 99 |
Rest of
Latin America Quantum Sensors Market, By Platform, 2020-2030 (USD Million) |
Table 100 |
Rest of
Latin America Quantum Sensors Market, By Application, 2020-2030 (USD Million) |
Table 101 |
Product
Launch & Development in The Quantum Sensors Market, 2020-2022 |
Table 102 |
Investment
and Expansion in The Quantum Sensors Market, 2020-2022 |
Table 103 |
Partnership
& Collaboration in The Quantum Sensors Market, 2020-2022 |
Table 104 |
Merger
& Acquisition in The Quantum Sensors Market, 2020-2022 |
List of
Figures |
|
Figure 1 |
Research
Methodology |
Figure 2 |
Summary
Snapshot Market Size and Forecast, USD Million, 2022 & 2030 |
Figure 3 |
Global
Quantum Sensors Market Segmentation & Impact Analysis |
Figure 4 |
Regulatory
Analysis |
Figure 5 |
COVID-19
Impact analysis on Quantum Sensors Market |
Figure 6 |
Market
Revenue Share by Manufacturers |
Figure 7 |
Quantum
Sensors Market, By Product Type (Market Size and Forecast by Value - USD
Million, 2022 & 2030) |
Figure 8 |
Quantum
Sensors Market, By Platform (Market Size and Forecast by Value - USD Million,
2022 & 2030) |
Figure 9 |
Quantum
Sensors Market, By Application (Market Size and Forecast by Value - USD
Million, 2022 & 2030) |
Figure 11 |
Quantum
Sensors Market, By Region (Market Size and Forecast by Value - USD Million,
2022 & 2030) |
1.
Research Sources
We at Zettabyte Analytics have a
detailed and related research methodology focussed on estimating the market
size and forecasted value for the given market. Comprehensive research
objectives and scope were obtained through secondary research of the parent and
peer markets. The next step was to validate our research by various market
models and primary research. Both top-down and bottom-up approaches were
employed to estimate the market. In addition to all the research reports, data
triangulation is one of the procedures used to evaluate the market size of
segments and sub-segments.
Research Methodology
1.1. Secondary Research
The secondary research study involves various sources and databases used
to analyze and collect information for the market-oriented survey of a specific
market. We use multiple databases for our exhaustive secondary research, such
as Factiva, Dun & Bradstreet, Bloomberg, Research article, Annual reports,
Press Release, and SEC filings of significant companies. Apart from this, a
dedicated set of teams continuously extracts data of key industry players and
makes an extensive and unique segmentation related to the latest market
development.
1.2. Primary Research
The primary research includes gathering data from specific domain
experts through a detailed questionnaire, emails, telephonic interviews, and
web-based surveys. The primary interviewees for this study include an expert
from the demand and supply side, such as CEOs, VPs, directors, sales heads, and
marketing managers of tire 1,2, and 3 companies across the globe.
1.3. Data Triangulation
The data triangulation is very important for any market study, thus we
at Zettabyte Analytics focus on at least three sources to ensure a high level
of accuracy. The data is triangulated by studying various factors and trends
from both supply and demand side. All the reports published and stored in our
repository follows a detailed process to obtain a reliable insight for our
clients.
1.4. In-House Verification
To validate the segmentation
and verify the data collected, our market expert ensures whether our research
analyst is considering fine distinction before analyzing the market.
1.5. Reporting
In the end,
presenting our research reports complied in a different format for straightforward
valuation such as ppt, pdf, and excel data pack is done.
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