The global directed energy weapons market is expected to grow at a CAGR of around 15.5% during 2024-2033. This report on global directed energy weapons market report provides holistic understanding of the market along with market sizing, forecast, drivers, challenges, and competitive landscape. The report presents a clear picture of the global directed energy weapons market by segmenting the market based on type, application, technology, end use and region. Also, detailed profiles of companies operating in the directed energy weapons market are provided in this report. We believe that this report will aid the professionals and industry stakeholders in making informed decision.
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Market Drivers
Globally, the defence sector of various countries are focusing on modernization of military and defence systems, is fuelling the growth of the directed energy weapons market. According to International Institute for Strategic Studies (IISS), in 2020, defense spending across the globe was estimated to be around US$ 1,830 billion, an increase of 3.9% as compared to the 2019 spending. The defense budgets have witnessed the largest increase in 2019 since 2010, it has increased to US$ 1.917 trillion, a 3.6% increase over previous years. In 2021, this budget has increased further to US$ 2.1 trillion. In the same year, China spent US$ 293 billion, trailing behind the United States on the board, which spent US$ 801 billion on its military. These nations made up 38% and 14% of the global share, respectively.
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Market Restraints
Key players in the directed energy weapons market are obligated to abide with the stringent regulations set forth by local, state, and federal authorities, including those governing soil, air, and water pollution as well as the storage, use, and discharge of hazardous materials, weapons, and ammunition. On the other hand, continuous upgrades in military electronics require modern directed energy weapon systems to match the design requirements of the electronic equipment and systems. It is difficult for vendors to keep up with changing processes and technical advancements while also developing innovative and complicated designs that are acceptable for producers of military systems and equipment.
Market Opportunities
Laser weapon systems consist of two primary groups, low-energy weapon systems and high-powered weapon systems. Low-energy weapon systems are used to disrupt vision, whereas high-powered weapon systems are used on people, materials, and vehicles. Since laser wavelengths are around 10,000 times smaller than microwave wavelengths, they experience less diffraction and are therefore more precise over long distances. The laser weapon systems also produce pulses with high energy. Comparing directed energy weapons to other conventional weapons, they are far less expensive. The conventional weapons costs thousands of dollar per shot due to their restricted availability, rocket motors, guidance systems, avionics, seekers, and airframe deployment. In contrast, directed energy weapons have a substantially lower cost per shot as their upfront cost in terms of fuel and nuclear reactor is offset by low-cost energy.
Industry Development
- In Apr 2023, QinetiQ was awarded a contract by the Defense Science and Technology Group (DSTG) to collaborate with the Department of Defense on the co-development and manufacture of a high-energy defensive laser system prototype in South Australia.
- In Jan 2023, BAE Systems entered into a $12 million contract with the Air Force Research Laboratory (AFRL) to create an advanced seeker for maritime targeting from air-launched platforms. This seeker, part of the Maritime Weapon Innovation Program (MWIP), is designed to be low-cost, all-weather, and multi-mode (radar/infrared), featuring an open architecture.
- In Nov 2022, Leonardo S.p.A., along with MBDA and QinetiQ, formed a partnership with the UK Ministry of Defence’s Defense Science and Technology Laboratory (Dstl) to develop new directed energy weapon technologies under the UK DragonFire project. Leonardo has already delivered two prototype UK DragonFire beam directors as part of this initiative.
- In Jul 2022, Elbit Systems secured an $80 million contract to supply IR-PAWS (Infrared-based Passive Airborne Warning Systems) EW Systems and C-MUSIC directed infrared countermeasures to an undisclosed country in the Asia Pacific region.
Directed Energy Weapons Market Report Highlights:
- The lethal segment dominated the global directed energy weapons market by type with 93.9% in 2023. The lethal directed energy weapons are majorly deployed for military applications such as rail gun, electromagnetic bombs (e-bombs), plasma cannons, microwave gun, plasma grenade, navy laser cannon, etc.
- Based on application, defense dominated segment held the largest market share of 97.0% in 2023 and is anticipated to dominate the market over the forecast period.
- Based on technology, high energy laser dominated segment held the largest market share of 56.6% in 2023 and is anticipated to dominate the market over the forecast period. High energy laser technology is majorly used in the directed energy weapons owing to its low power consumption, and ease of installation.
- Based on end use, land vehicles dominated segment held the largest market share of 53.1% in 2023 and is anticipated to dominate the market over the forecast period. The market expansion in this sector is being driven by the increased focus on upgrading land-based military infrastructures, which has resulted in the replacement of existing kinetic energy weapons with directed energy weapons.
- North America generated the highest revenue in 2023 with a 46.1% revenue share. The wide presence of prominent market players along with the implementation of favorable government regulations by several law enforcement and military agencies pertaining to the procurement of DEWs is driving the market growth in this region.
Historical & Forecast Period
Base Year: 2023
Historical Period: 2019-2023
Forecast Period: 2024-2033
Report’s Unit: US$
Global Directed Energy Weapons Market Segmentation
Market by Type
- Lethal
- Non-Lethal
Market by Application
- Defense
- Homeland Security
Market by Technology
- High Energy Laser
- High Power Microwave
- Particle Beam
Market by End Use
- Land Vehicles
- Ship based
- Airborne
- Gunshot
Market by Region
Europe
- Germany
- United Kingdom
- France
- Italy
- Spain
- Russia
- Netherlands
- Sweden
- Poland
- Rest of Europe
North America
- United States
- Canada
Asia Pacific
- China
- Japan
- India
- South Korea
- Australia
- ASEAN
- Rest of Asia Pacific
Latin America
- Mexico
- Brazil
- Argentina
- Chile
- Rest of Latin America
Middle East & Africa
- Saudi Arabia
- Turkey
- Iran
- United Arab Emirates
- Rest of Middle East & Africa
List of Mentioned Companies
- Adsys Controls Inc.
- Applied Companies
- BAE Systems Plc
- L3harris Technologies Inc.
- Leonardo SPA
- Lockheed Martin Corporation
- Moog Inc
- Northrop Grumman Corporation
- Qinetiq Group Plc
- Rafael Advanced Defense Systems
- Raytheon Technologies Corporation
- Rheinmetall Aktiengesellschaft
- Textron Inc.
Report Coverage
Report Feature | Details |
Base Year | 2023 |
Historical Period | 2019-2022 |
Forecast Period | 2024-2033 |
Units | US$ Million |
Segments Covered | Type, Application, Technology, End Use, Region |
Region Covered | Europe, North America, Asia Pacific, Latin America, Middle East and Africa |
Companies Covered | Adsys Controls Inc., Applied Companies, BAE Systems Plc, L3harris Technologies Inc., Leonardo SPA, Lockheed Martin Corporation, Moog Inc, Northrop Grumman Corporation, Qinetiq Group Plc, Rafael Advanced Defense Systems, Raytheon Technologies Corporation, Rheinmetall Aktiengesellschaft, Textron Inc. |
Purchase Options | Single User License: US$ 2,999 Five User License: US$ 3,499 Corporate License: US$ 4,499 |
Research Methodology
During the course of the research study, we conducted extensive primary and secondary research. The research commenced with extensive exploration through secondary sources followed by primary research. With these research methods, we were able to estimate the market size, to identify the factors that promote the growth in this market as well as the factors that hamper the growth in the market.
Comprehensive primary and secondary methods helped us to identify the trends in the market and to project the opportunities that the key players may get during the forecast period. Apart from these approaches, various analytical and statistical approaches were also used during data extraction cleaning, and analysis.Â
Post-secondary & primary research, we conducted expert interviews to validate all the information we collected during the course of the study. So, a blend of these three-way approaches helped us in data triangulation and to provide an accurate market scenario in our report.
Key Questions Answered in the Report
- What will be the global directed energy weapons market size and the growth rate in the coming year?
- What are the main key factors driving the market?
- What are the key market trends impacting the growth of the market?
- What are the market opportunities and threats in the market?
- What industrial trends, drivers, and challenges are manipulating its growth?
- Which are trending factors influencing the market shares of the top regions across the globe?
- Who are the key market players in the industry?
- What is the impact of Covid19 on the current industry?
1. Preface
1.1 Objective
1.2 Target Audience & Key Offerings
1.3 Report’s Scope
1.4 Research Methodology
1.4.1 Phase I
1.4.2 Phase II
1.4.3 Phase III
1.5 Assumptions
2. Key Insights
2.1. Global Market in 2023
2.2. Impact of COVID-19
2.3. Growth Opportunities and Challenges
2.4. Key Industry Trends
3. Global Market Dynamics
3.1. Introduction
3.2. Market DROs
3.2.1. Drivers
3.2.2. Restraints
3.2.3. Opportunities
3.3. Industry Trends
3.4. SWOT Analysis
3.5. Market Value Chain Analysis
3.6. Porter’s Five Forces Analysis
3.7. PESTLE Analysis
3.8. Key Price Indicators
3.9. Ansoff Matrix
3.10. Government Laws and Industry Regulations
4. Global Directed Energy Weapons Market Analysis
4.1. Market Portraiture
4.2. Market Size (US$ Million, 2019-2023)
4.3. Market Forecast (US$ Million, 2024-2033)
4.4. Impact of COVID-19
4.5. Impact of Russia-Ukraine War
5. Global Directed Energy Weapons Market by Type (US$ Million, 2019-2033)
5.1. Introduction
5.2. Floor Care
5.3. Window Cleaning
5.4. Vacuuming
5.5. Maid Services
5.6. Carpet & Upholstery
5.7. Others
5.8. Key Segment Investment Opportunity
6. Global Directed Energy Weapons Market by Type (US$ Million, 2019-2033)
6.1. Introduction
6.2. Defense
6.3. Homeland Security
6.4. Key Segment Investment Opportunity
7. Global Directed Energy Weapons Market by Application (US$ Million, 2019-2033)
7.1. Introduction
7.2. High Energy Laser
7.3. High Power Microwave
7.4. Particle Beam
7.5. Key Segment Investment Opportunity
8. Global Directed Energy Weapons Market by Technology (US$ Million, 2019-2033)
8.1. Introductions
8.2. Land Vehicles
8.3. Ship based
8.4. Airborne
8.5. Gunshot
8.6. Key Segment Investment Opportunity
9. Global Directed Energy Weapons Market by Region (US$ Million, 2019-2033)
9.1. Introduction
9.2. Europe
9.3. North America
9.4. Asia Pacific
9.5. Latin America
9.6. Middle East & Africa
9.7. Key Segment Investment Opportunity
10. Europe Directed Energy Weapons Market (US$ Million, 2019-2033)
10.1. Introduction
10.2. Key Drivers and Takeaways
10.3. Europe Market Breakup by Type
10.4. Europe Market Breakup by Application
10.5. Europe Market Breakup by Technology
10.6. Europe Market Breakup by End Use
10.7. Europe Market Breakup by Country
10.7.1. Germany
10.7.2. United Kingdom
10.7.3. France
10.7.4. Italy
10.7.5. Spain
10.7.6. Russia
10.7.7. Netherlands
10.7.8. Sweden
10.7.9. Poland
10.7.10. Rest of Europe
11. North America Directed Energy Weapons Market (US$ Million, 2019-2033)
11.1. Introduction
11.2. Key Drivers and Takeaways
11.3. North America Market Breakup by Type
11.4. North America Market Breakup by Application
11.5. North America Market Breakup by Technology
11.6. North America Market Breakup by End Use
11.7. North America Market Breakup by Country
11.7.1. United States
11.7.2. Canada
12. Asia Pacific Directed Energy Weapons Market (US$ Million, 2019-2033)
12.1. Introduction
12.2. Key Drivers and Takeaways
12.3. Asia Pacific Market Breakup by Type
12.4. Asia Pacific Market Breakup by Application
12.5. Asia Pacific Market Breakup by Technology
12.6. Asia Pacific Market Breakup by End Use
12.7. Asia Pacific Market Breakup by Country
12.7.1. China
12.7.2. Japan
12.7.3. India
12.7.4. South Korea
12.7.5. Australia
12.7.6. ASEAN
12.7.7. Rest of Asia Pacific
13. Latin America Directed Energy Weapons Market (US$ Million, 2019-2033)
13.1. Introduction
13.2. Key Drivers and Takeaways
13.3. Latin America Market Breakup by Type
13.4. Latin America Market Breakup by Application
13.5. Latin America Market Breakup by Technology
13.6. Latin America Market Breakup by End Use
13.7. Latin America Market Breakup by Country
13.7.1. Mexico
13.7.2. Brazil
13.7.3. Argentina
13.7.4. Chile
13.7.5. Rest of Latin America
14. Middle East and Africa Directed Energy Weapons Market (US$ Million, 2019-2033)
14.1. Introduction
14.2. Key Drivers and Takeaways
14.3. Middle East and Africa Market Breakup by Type
14.4. Middle East and Africa Market Breakup by Application
14.5. Middle East and Africa Market Breakup by Technology
14.6. Middle East and Africa Market Breakup by End Use
14.7. Middle East and Africa Market Breakup by Country
14.7.1. Saudi Arabia
14.7.2. Turkey
14.7.3. Iran
14.7.4. United Arab Emirates
14.7.5. Rest of Middle East & Africa
15. Competitive Landscape
15.1. Competitive Dashboard
15.2. Key Industry Strategies Analysis
15.3. Recent Developments
15.4. Market Scenario
16. Company Profiles
16.1. Adsys Controls Inc.
16.2. Applied Companies
16.3. BAE Systems Plc
16.4. L3harris Technologies Inc.
16.5. Leonardo SPA
16.6. Lockheed Martin Corporation
16.7. Moog Inc
16.8. Northrop Grumman Corporation
16.9. Qinetiq Group Plc
16.10. Rafael Advanced Defense Systems
16.11. Raytheon Technologies Corporation
16.12. Rheinmetall Aktiengesellschaft
16.13. Textron Inc.
- Description
-
The global directed energy weapons market is expected to grow at a CAGR of around 15.5% during 2024-2033. This report on global directed energy weapons market report provides holistic understanding of the market along with market sizing, forecast, drivers, challenges, and competitive landscape. The report presents a clear picture of the global directed energy weapons market by segmenting the market based on type, application, technology, end use and region. Also, detailed profiles of companies operating in the directed energy weapons market are provided in this report. We believe that this report will aid the professionals and industry stakeholders in making informed decision.
Â
Market Drivers
Globally, the defence sector of various countries are focusing on modernization of military and defence systems, is fuelling the growth of the directed energy weapons market. According to International Institute for Strategic Studies (IISS), in 2020, defense spending across the globe was estimated to be around US$ 1,830 billion, an increase of 3.9% as compared to the 2019 spending. The defense budgets have witnessed the largest increase in 2019 since 2010, it has increased to US$ 1.917 trillion, a 3.6% increase over previous years. In 2021, this budget has increased further to US$ 2.1 trillion. In the same year, China spent US$ 293 billion, trailing behind the United States on the board, which spent US$ 801 billion on its military. These nations made up 38% and 14% of the global share, respectively.
Â
Market Restraints
Key players in the directed energy weapons market are obligated to abide with the stringent regulations set forth by local, state, and federal authorities, including those governing soil, air, and water pollution as well as the storage, use, and discharge of hazardous materials, weapons, and ammunition. On the other hand, continuous upgrades in military electronics require modern directed energy weapon systems to match the design requirements of the electronic equipment and systems. It is difficult for vendors to keep up with changing processes and technical advancements while also developing innovative and complicated designs that are acceptable for producers of military systems and equipment.
Market Opportunities
Laser weapon systems consist of two primary groups, low-energy weapon systems and high-powered weapon systems. Low-energy weapon systems are used to disrupt vision, whereas high-powered weapon systems are used on people, materials, and vehicles. Since laser wavelengths are around 10,000 times smaller than microwave wavelengths, they experience less diffraction and are therefore more precise over long distances. The laser weapon systems also produce pulses with high energy. Comparing directed energy weapons to other conventional weapons, they are far less expensive. The conventional weapons costs thousands of dollar per shot due to their restricted availability, rocket motors, guidance systems, avionics, seekers, and airframe deployment. In contrast, directed energy weapons have a substantially lower cost per shot as their upfront cost in terms of fuel and nuclear reactor is offset by low-cost energy.
Industry Development
- In Apr 2023, QinetiQ was awarded a contract by the Defense Science and Technology Group (DSTG) to collaborate with the Department of Defense on the co-development and manufacture of a high-energy defensive laser system prototype in South Australia.
- In Jan 2023, BAE Systems entered into a $12 million contract with the Air Force Research Laboratory (AFRL) to create an advanced seeker for maritime targeting from air-launched platforms. This seeker, part of the Maritime Weapon Innovation Program (MWIP), is designed to be low-cost, all-weather, and multi-mode (radar/infrared), featuring an open architecture.
- In Nov 2022, Leonardo S.p.A., along with MBDA and QinetiQ, formed a partnership with the UK Ministry of Defence’s Defense Science and Technology Laboratory (Dstl) to develop new directed energy weapon technologies under the UK DragonFire project. Leonardo has already delivered two prototype UK DragonFire beam directors as part of this initiative.
- In Jul 2022, Elbit Systems secured an $80 million contract to supply IR-PAWS (Infrared-based Passive Airborne Warning Systems) EW Systems and C-MUSIC directed infrared countermeasures to an undisclosed country in the Asia Pacific region.
Directed Energy Weapons Market Report Highlights:
- The lethal segment dominated the global directed energy weapons market by type with 93.9% in 2023. The lethal directed energy weapons are majorly deployed for military applications such as rail gun, electromagnetic bombs (e-bombs), plasma cannons, microwave gun, plasma grenade, navy laser cannon, etc.
- Based on application, defense dominated segment held the largest market share of 97.0% in 2023 and is anticipated to dominate the market over the forecast period.
- Based on technology, high energy laser dominated segment held the largest market share of 56.6% in 2023 and is anticipated to dominate the market over the forecast period. High energy laser technology is majorly used in the directed energy weapons owing to its low power consumption, and ease of installation.
- Based on end use, land vehicles dominated segment held the largest market share of 53.1% in 2023 and is anticipated to dominate the market over the forecast period. The market expansion in this sector is being driven by the increased focus on upgrading land-based military infrastructures, which has resulted in the replacement of existing kinetic energy weapons with directed energy weapons.
- North America generated the highest revenue in 2023 with a 46.1% revenue share. The wide presence of prominent market players along with the implementation of favorable government regulations by several law enforcement and military agencies pertaining to the procurement of DEWs is driving the market growth in this region.
Historical & Forecast Period
Base Year: 2023
Historical Period: 2019-2023
Forecast Period: 2024-2033
Report’s Unit: US$
Global Directed Energy Weapons Market Segmentation
Market by Type
- Lethal
- Non-Lethal
Market by Application
- Defense
- Homeland Security
Market by Technology
- High Energy Laser
- High Power Microwave
- Particle Beam
Market by End Use
- Land Vehicles
- Ship based
- Airborne
- Gunshot
Market by Region
Europe
- Germany
- United Kingdom
- France
- Italy
- Spain
- Russia
- Netherlands
- Sweden
- Poland
- Rest of Europe
North America
- United States
- Canada
Asia Pacific
- China
- Japan
- India
- South Korea
- Australia
- ASEAN
- Rest of Asia Pacific
Latin America
- Mexico
- Brazil
- Argentina
- Chile
- Rest of Latin America
Middle East & Africa
- Saudi Arabia
- Turkey
- Iran
- United Arab Emirates
- Rest of Middle East & Africa
List of Mentioned Companies
- Adsys Controls Inc.
- Applied Companies
- BAE Systems Plc
- L3harris Technologies Inc.
- Leonardo SPA
- Lockheed Martin Corporation
- Moog Inc
- Northrop Grumman Corporation
- Qinetiq Group Plc
- Rafael Advanced Defense Systems
- Raytheon Technologies Corporation
- Rheinmetall Aktiengesellschaft
- Textron Inc.
Report Coverage
Report Feature Details Base Year 2023 Historical Period 2019-2022 Forecast Period 2024-2033 Units US$ Million Segments Covered Type, Application, Technology, End Use, Region Region Covered Europe, North America, Asia Pacific, Latin America, Middle East and Africa Companies Covered Adsys Controls Inc., Applied Companies, BAE Systems Plc, L3harris Technologies Inc., Leonardo SPA, Lockheed Martin Corporation, Moog Inc, Northrop Grumman Corporation, Qinetiq Group Plc, Rafael Advanced Defense Systems, Raytheon Technologies Corporation, Rheinmetall Aktiengesellschaft, Textron Inc. Purchase Options Single User License: US$ 2,999
Five User License: US$ 3,499
Corporate License: US$ 4,499Research Methodology
During the course of the research study, we conducted extensive primary and secondary research. The research commenced with extensive exploration through secondary sources followed by primary research. With these research methods, we were able to estimate the market size, to identify the factors that promote the growth in this market as well as the factors that hamper the growth in the market.
Comprehensive primary and secondary methods helped us to identify the trends in the market and to project the opportunities that the key players may get during the forecast period. Apart from these approaches, various analytical and statistical approaches were also used during data extraction cleaning, and analysis.Â
Post-secondary & primary research, we conducted expert interviews to validate all the information we collected during the course of the study. So, a blend of these three-way approaches helped us in data triangulation and to provide an accurate market scenario in our report.
Key Questions Answered in the Report
- What will be the global directed energy weapons market size and the growth rate in the coming year?
- What are the main key factors driving the market?
- What are the key market trends impacting the growth of the market?
- What are the market opportunities and threats in the market?
- What industrial trends, drivers, and challenges are manipulating its growth?
- Which are trending factors influencing the market shares of the top regions across the globe?
- Who are the key market players in the industry?
- What is the impact of Covid19 on the current industry?
- Table of Contents
-
1. Preface
1.1 Objective
1.2 Target Audience & Key Offerings
1.3 Report’s Scope
1.4 Research Methodology
1.4.1 Phase I
1.4.2 Phase II
1.4.3 Phase III
1.5 Assumptions
2. Key Insights
2.1. Global Market in 2023
2.2. Impact of COVID-19
2.3. Growth Opportunities and Challenges
2.4. Key Industry Trends
3. Global Market Dynamics
3.1. Introduction
3.2. Market DROs
3.2.1. Drivers
3.2.2. Restraints
3.2.3. Opportunities
3.3. Industry Trends
3.4. SWOT Analysis
3.5. Market Value Chain Analysis
3.6. Porter’s Five Forces Analysis
3.7. PESTLE Analysis
3.8. Key Price Indicators
3.9. Ansoff Matrix
3.10. Government Laws and Industry Regulations
4. Global Directed Energy Weapons Market Analysis
4.1. Market Portraiture
4.2. Market Size (US$ Million, 2019-2023)
4.3. Market Forecast (US$ Million, 2024-2033)
4.4. Impact of COVID-19
4.5. Impact of Russia-Ukraine War
5. Global Directed Energy Weapons Market by Type (US$ Million, 2019-2033)
5.1. Introduction
5.2. Floor Care
5.3. Window Cleaning
5.4. Vacuuming
5.5. Maid Services
5.6. Carpet & Upholstery
5.7. Others
5.8. Key Segment Investment Opportunity
6. Global Directed Energy Weapons Market by Type (US$ Million, 2019-2033)
6.1. Introduction
6.2. Defense
6.3. Homeland Security
6.4. Key Segment Investment Opportunity
7. Global Directed Energy Weapons Market by Application (US$ Million, 2019-2033)
7.1. Introduction
7.2. High Energy Laser
7.3. High Power Microwave
7.4. Particle Beam
7.5. Key Segment Investment Opportunity
8. Global Directed Energy Weapons Market by Technology (US$ Million, 2019-2033)
8.1. Introductions
8.2. Land Vehicles
8.3. Ship based
8.4. Airborne
8.5. Gunshot
8.6. Key Segment Investment Opportunity
9. Global Directed Energy Weapons Market by Region (US$ Million, 2019-2033)
9.1. Introduction
9.2. Europe
9.3. North America
9.4. Asia Pacific
9.5. Latin America
9.6. Middle East & Africa
9.7. Key Segment Investment Opportunity
10. Europe Directed Energy Weapons Market (US$ Million, 2019-2033)
10.1. Introduction
10.2. Key Drivers and Takeaways
10.3. Europe Market Breakup by Type
10.4. Europe Market Breakup by Application
10.5. Europe Market Breakup by Technology
10.6. Europe Market Breakup by End Use
10.7. Europe Market Breakup by Country
10.7.1. Germany
10.7.2. United Kingdom
10.7.3. France
10.7.4. Italy
10.7.5. Spain
10.7.6. Russia
10.7.7. Netherlands
10.7.8. Sweden
10.7.9. Poland
10.7.10. Rest of Europe
11. North America Directed Energy Weapons Market (US$ Million, 2019-2033)
11.1. Introduction
11.2. Key Drivers and Takeaways
11.3. North America Market Breakup by Type
11.4. North America Market Breakup by Application
11.5. North America Market Breakup by Technology
11.6. North America Market Breakup by End Use
11.7. North America Market Breakup by Country
11.7.1. United States
11.7.2. Canada
12. Asia Pacific Directed Energy Weapons Market (US$ Million, 2019-2033)
12.1. Introduction
12.2. Key Drivers and Takeaways
12.3. Asia Pacific Market Breakup by Type
12.4. Asia Pacific Market Breakup by Application
12.5. Asia Pacific Market Breakup by Technology
12.6. Asia Pacific Market Breakup by End Use
12.7. Asia Pacific Market Breakup by Country
12.7.1. China
12.7.2. Japan
12.7.3. India
12.7.4. South Korea
12.7.5. Australia
12.7.6. ASEAN
12.7.7. Rest of Asia Pacific
13. Latin America Directed Energy Weapons Market (US$ Million, 2019-2033)
13.1. Introduction
13.2. Key Drivers and Takeaways
13.3. Latin America Market Breakup by Type
13.4. Latin America Market Breakup by Application
13.5. Latin America Market Breakup by Technology
13.6. Latin America Market Breakup by End Use
13.7. Latin America Market Breakup by Country
13.7.1. Mexico
13.7.2. Brazil
13.7.3. Argentina
13.7.4. Chile
13.7.5. Rest of Latin America
14. Middle East and Africa Directed Energy Weapons Market (US$ Million, 2019-2033)
14.1. Introduction
14.2. Key Drivers and Takeaways
14.3. Middle East and Africa Market Breakup by Type
14.4. Middle East and Africa Market Breakup by Application
14.5. Middle East and Africa Market Breakup by Technology
14.6. Middle East and Africa Market Breakup by End Use
14.7. Middle East and Africa Market Breakup by Country
14.7.1. Saudi Arabia
14.7.2. Turkey
14.7.3. Iran
14.7.4. United Arab Emirates
14.7.5. Rest of Middle East & Africa
15. Competitive Landscape
15.1. Competitive Dashboard
15.2. Key Industry Strategies Analysis
15.3. Recent Developments
15.4. Market Scenario
16. Company Profiles
16.1. Adsys Controls Inc.
16.2. Applied Companies
16.3. BAE Systems Plc
16.4. L3harris Technologies Inc.
16.5. Leonardo SPA
16.6. Lockheed Martin Corporation
16.7. Moog Inc
16.8. Northrop Grumman Corporation
16.9. Qinetiq Group Plc
16.10. Rafael Advanced Defense Systems
16.11. Raytheon Technologies Corporation
16.12. Rheinmetall Aktiengesellschaft
16.13. Textron Inc.