国防与太空光子元件：市场与技术预测（~2032）

光子元件在现代国防和太空系统中发挥着至关重要的作用，为光电/红外线系统、对抗、雷达、雷射武器系统以及指挥、控制和通讯 (C3) 系统等领域的技术提供支援。政府对这些组件的直接购买仍然有限，但国防和航空航天承包商、卫星製造商以及专门从事太空任务的公司是推动需求的关键客户。

世界各国政府越来越认识到光子技术在国防和航太领域的战略重要性，并为专门针对这些应用的高功率、高数据速率光子组件的研发提供补助和资金。政策改革也正在实施，以放宽关键矿产的进口，并提供当地基础设施以增强国内製造能力。

影响国防光子市场的关键因素是地缘政治局势。由于国防技术敏感，将製造外包给利益衝突的国家会带来安全风险。随着需求的增长，国防和航太公司可能会优先考虑在国内或盟国进行製造。特别是在北美和欧洲国家，目前大多数光子元件都来自中国及其周边国家。

本报告调查了国防和航太用光子元件的市场和技术，提供了技术概述、最新趋势，分析了市场成长的各种影响因素、市场规模的趋势和预测，并提供了各个细分市场、地区的资料、以及主要国家。

细分：

地区

• 27个欧盟国家
• 27个非欧盟国家
• 北美
• 亚太地区
• 中东/非洲
• 拉丁美洲

系统

• 电光/红外线系统
• C3 system
• 雷达
• 雷射武器系统
• 柜檯系统

最终用户

• 地面
• 航空
• 海军
• 宇宙

上市公司

目录

第1章执行摘要

第2章 简介

第3章技术与发展

• 技术概述
• 光子元件的类型
• 重要技术开发
• 空间应用的先进开发

第4章市场概况

• 预测期内国防与太空光子元件市场分布：依地区
• 主要公司概况
• 主要产品
• 主要客户概况
• 供应链概览
• 重要原料
• 重要的光子技术
• 近期产品开发
• 近期市场趋势

第5章市场动态与预测因素

• 市场细分
  • 按地区
  • 按最终用户
  • 按系统
• 促进因素
• 趋势
• 机会
• 任务

第6章 国别分析

• 欧盟27国
• 德国
• 法国
• 荷兰
• 义大利
• 西班牙
• 芬兰
• 瑞典
• 奥地利
• 英国
• 美国
• 俄罗斯
• 土耳其
• 澳洲
• 印度
• 日本

第7章市场预测：按地区

• 市场概况
• 市场概况：按地区和系统划分
• 市场概览：按地区和最终用户划分

第8章市场预测：依系统分类

• 市场概况
• 市场概况：按系统/地区
• 市场概览：按系统/最终用户

第9章市场预测：依最终用户分类

• 市场概况
• 市场概览：依最终使用者/系统划分
• 市场概览：按最终用户和地区划分

第10章市场预测情境2

• 市场概况：按地区
• 市场概况：依系统划分
• 市场概览：依最终使用者分类

第11章影响分析

• 预测因子/市场影响

第12章 主要公司

• AIM Photonics
• AIO CORE
• Coherent
• Innolume
• IPG Photonics Corporation
• Hamamatsu Photonics K.K.
• Lumentum
• Molex
• nLight
• Photonis (Exosense)
• TRUMPF

第 13 章 调查结果/概述

第14章关于市场预测

附录 A：提及的公司

附录 B：缩写

附录 C：主要光子系统供应商

Photonic components play a critical role in modern defence and space systems, supporting technologies in areas such as electro-optical/infrared (EO/IR) systems, countermeasures, radar, laser weapon systems, and command, control, and communication (C3) systems. While direct government purchases of these components remain limited, defence and aerospace contractors, satellite manufacturers, and companies specialising in space missions are the primary customers driving demand.

Governments worldwide are increasingly recognizing the strategic importance of photonic technologies for defence and space and are stepping up support through grants and funds dedicated to research and development (R&D) of high-power, high-data-rate photonic components tailored for these applications. Policies are also being amended to ease the import of critical minerals and provide local infrastructure to bolster domestic manufacturing capabilities.

Despite this growth, the photonics market for defence and space applications faces several unique challenges. Photonics is currently dominated by consumer-driven industries such as mobile electronics, automotive, and general electronics, where specifications, scale, and pricing structures differ substantially from the requirements for military and space systems. Consequently, catering to the smaller defence and space market with specialised, high-performance photonic components demands stable, long-term contracts and assurance of substantial orders to justify investment. Much of the defence and space photonics demand depends heavily on government procurement strategies, long-term defence spending, and space exploration budgets, which can be unpredictable and prone to political shifts.

A significant factor affecting the defence photonics market is the geopolitical landscape. Given the sensitive nature of defence technologies, production outsourcing to countries with conflicting interests poses security risks. As demand grows, defence and space entities are likely to prioritize production either domestically or within allied nations. This move towards localized production poses supply chain challenges, especially for North American and European countries where most photonic components are currently sourced from China and its neighbouring countries.

To meet these needs, strong policy frameworks are essential, including consistent funding support and efforts to secure critical mineral supplies. Additionally, identifying alternative mineral sourcing locations, possibly through new mining ventures, will be necessary to reduce dependency on limited sources. Ensuring a steady demand through guaranteed procurement and strategic government partnerships will encourage the establishment of dedicated commercial production facilities, helping to unlock the full market potential of photonic components for defence and space applications.

"Photonic Components for Defence and Space Applications - Market and Technology Forecast to 2032" is a comprehensive and forward-looking study that not only outlines the current state of the industry but also provides insights into the road ahead. Stakeholders, industry experts, and enthusiasts are invited to join the conversation, explore the latest innovations, and gain a deeper understanding of the evolving landscape of photonic components in defence and space applications.

The research report emphasises the critical importance of high-photonic components, particularly within the defence and space sectors, where recent advancements are driving significant progress and adoption. One key area of development is in beam-combining techniques, which enable the integration of multiple laser beams into a single, high-power output beam with exceptional quality. This innovation allows for increased power output while maintaining precise beam characteristics essential for defence applications like targeting and countermeasures.

The study also offers a comprehensive analysis of critical raw materials essential for advancing laser technology in defence and space applications. These raw materials play a foundational role in enabling the production and optimization of high-performance laser systems. Insights are provided on the strategic implications of raw material dependencies and market trends for stakeholders in the defence and space industries. This includes recommendations for diversifying supply sources, developing alternative materials, and fostering international collaborations to enhance material security and resilience.

Covered in this study:

• Overview: Snapshot of the Photonics technology in the defence and space market during 2024-2032, including highlights of the demand drivers, trends, and challenges. It also provides a snapshot of the spending with respect to regions as well as segments and sheds light on the emergence of new technologies.
• Market Dynamics: Insights into the technological developments in the Photonics market and a detailed analysis of the changing preferences of governments around the world. It also analyses changing critical raw material sourcing strategies and using public-private partnership structure in defence and market trends and the challenges faced by the industry participants.
• Segment Analysis: Insights into the various systems market from a segmental perspective and a detailed analysis of factors influencing the market for each segment.
• Regional Review: Insights into modernization patterns and budgetary allocation for top countries within a region.
• Regional Analysis: Insights into the systems market from a regional perspective and a detailed analysis of factors influencing the market for each region.
• Impact Analysis: Analysis of how certain events will impact the photonic component market. This will give you an indication of which factors are important for the forecast.
• Key Program Analysis: Details of the top programmes in each segment expected to be executed during the forecast period.
• Competitive landscape Analysis: Analysis of the competitive landscape of this industry. It provides an overview of key companies, together with insights such as key alliances, strategic initiatives, and a SWOT analysis.

Segmentation:

The market is segmented by Region, System, and End-User:

Region

• EU-27
• Non EU-27
• North America
• Asia Pacific
• Middle East & Africa
• Latin America

System

• EO/IR Systems
• C3 Systems
• Radars
• Laser Weapon Systems
• Countermeasure Systems

End User

• Ground
• Air
• Naval
• Space

Reasons to buy:

• To address the procurement and market analysis needs for photonic components in defence and space applications over the next eight years.
• Conduct a comprehensive analysis of prospective procurement areas based on market trends and government programs. Identify specific areas of demand growth for photonic components in defence and space applications, such as directed energy weapons, communication systems, and countermeasures. Develop a procurement plan that aligns with technological advancements and industry dynamics.
• Gain insights into the factors driving demand for different photonic components in leading countries and emerging markets. Identify opportunities presented by each market segment based on defence spending, technological advancements, and geopolitical factors. Analyze market potential in terms of applications like space-based internet, inter-satellite communication, and deep space missions.
• Strengthen understanding of market demand drivers, industry trends, regulatory landscapes, and technological developments influencing the adoption of photonic components in defence and space applications. Monitor advancements in laser technology, including power output, efficiency, and reliability, to anticipate future market needs and opportunities.
• Identify key channels driving the global photonic components market for defence and space applications. Evaluate opportunities in government procurement programs, defence contracts, research collaborations, and commercial partnerships. Explore avenues for revenue expansion through market penetration and diversification.
• Conduct a comprehensive analysis of the competitive landscape in the photonic components market. Profile leading providers of laser systems for defence and space applications worldwide, including their product offerings, market presence, research capabilities, and strategic initiatives. Assess competitive positioning to make informed business decisions and identify potential partnership opportunities.

Companies Listed:

Table of Contents

1. Executive Summary

• 1.1. Trends and Insights
• 1.2. Main Findings
• 1.3. Key Conclusions

2. Introduction

• 2.1. Scope
• 2.2. Definitions
• 2.3. Methodology
• 2.4. Who will benefit from this study?

3. Technologies and Developments

• 3.1. Technology Overview
• 3.2. Types of Photonic Components
• 3.3. Critical Technology Developments
  • 3.3.1. Achieving Higher Data Rates
  • 3.3.2. High Energy Lasers
  • 3.3.3. Photonic Integrated Circuits (IPCs)
  • 3.3.4. Photonic-Based Radio Frequency (RF) Sensors
  • 3.3.5. Microwave Photonics
• 3.4. Advanced Developments Related to Space Applications
  • 3.4.1. Advanced Photonic Crystal Sensors
  • 3.4.2. Integrated Photonics for Space-Based Lidar Systems
  • 3.4.3. Hybrid Photonic-Electronic Systems
  • 3.4.4. On-Orbit Optical Communication Links
  • 3.4.5. Miniaturized Photonic Components for CubeSats
  • 3.4.6. Optical Coherence Tomography (OCT) for Space Missions
  • 3.4.7. Quantum-Enhanced Photonic Technologies
  • 3.4.8. High-Precision Optical Systems for Planetary Rovers
  • 3.4.9. Other Developments

4. Market Overview

• 4.1. Introduction
• 4.2. Photonics Components market volume distribution over the forecast period by Region
• 4.3. Main market players overview
• 4.4. Leading Products
• 4.5. Main customers overview
• 4.6. Supply Chain Overview
• 4.7. Critical Raw Materials
  • 4.7.1. Semiconductors
  • 4.7.2. Optical Glasses
  • 4.7.3. Nonlinear Optical Materials
  • 4.7.4. Photonic Crystals
  • 4.7.5. Metamaterials
  • 4.7.6. Polymer Materials
  • 4.7.7. Rare-Earth Doped Materials
• 4.8. Critical Photonics Technologies
  • 4.8.1. Silicon Photonics
  • 4.8.2. Quantum Photonics
  • 4.8.3. Lithium Niobate (LiNbO3) Modulators
  • 4.8.4. Integrated Photonics Circuits (PICs)
  • 4.8.5. High-Power Fiber Lasers
  • 4.8.6. Photonic Crystals
• 4.9. Recent Product Development
  • 4.9.1. Stretchable, color-tunable photonic devices
  • 4.9.2. Single-Chip Optical Engine Platform
  • 4.9.3. Airbus Space Photonics Unified Roadmap
• 4.10. Recent Market Activity
  • 4.10.1. Acquisitions
  • 4.10.2. Partnerships

5. Market Dynamics and Forecast Factors

• 5.1. Market Segmentation
  • 5.1.1. Regional Segmentation
  • 5.1.2. Segmentation by End-Users
  • 5.1.3. Segmentation by Systems
• 5.2. Drivers
• 5.3. Trends
• 5.4. Opportunities
• 5.5. Challenges

6. Country Analysis

• 6.1. EU-27 Countries
  • 6.1.1. Initiative to Build European Supply Chain for Photonics
  • 6.1.2. Horizon Europe
  • 6.1.3. Quantum Flagship Initiative
  • 6.1.4. European Defence Fund (EDF)
  • 6.1.5. Photonics21
• 6.2. Germany
  • 6.2.1. Laser Weapon System (LWS) Development
  • 6.2.2. Modular Integrated Laser Optic System (MILOS)
  • 6.2.3. Pixl-1 Mission
• 6.3. France
  • 6.3.1. High Energy Laser for Multiple Applications - Power (HELMA-P) System
• 6.4. Netherlands
  • 6.4.1. The Center for Integrated Photonics Eindhoven (IPI)
• 6.5. Italy
• 6.6. Spain
• 6.7. Finland
• 6.8. Sweden
• 6.9. Austria
• 6.10. United Kingdom
  • 6.10.1. MOD's Directed Energy Weapons (DEW) Programme
  • 6.10.2. DragonFire program
  • 6.10.3. Northumbria University: Laser Communication Device for Satellite
• 6.11. United States
  • 6.11.1. American Institute for Manufacturing Integrated Photonics (AIM Photonics)
  • 6.11.2. National Photonics Initiative (NPI)
  • 6.11.3. The Birdseye Yonder (BEYOND) Project
  • 6.11.4. Reauthorizing the National Quantum Initiative
  • 6.11.5. Infinitely Operated High-energy Laser System
• 6.12. Russia
  • 6.12.1. Russian Laser Weapon
  • 6.12.2. The Peresvet
  • 6.12.3. Zadira
• 6.13. Turkiye
  • 6.13.1. JARMOL
  • 6.13.2. ALKA
• 6.14. Australia
• 6.15. India
• 6.16. Japan

7. Market Forecast to 2032 by Region

• 7.1. Photonic Components for Defence and Space Applications Market by Region overview
• 7.2. Photonic Components for Defence and Space Applications market Region by Systems overview
  • 7.2.1. N. Am. market by Systems overview
  • 7.2.2. EU-27 market by Systems overview
  • 7.2.3. Non EU-27 market by Systems overview
  • 7.2.4. APAC market by Systems overview
  • 7.2.5. MEA market by Systems overview
  • 7.2.6. LATAM market by Systems overview
• 7.3. Photonic Components for Defence and Space Applications market Region by End-user overview
  • 7.3.1. N. Am. market by End-user overview
  • 7.3.2. EU-27 market by End-user overview
  • 7.3.3. Non EU-27 market by End-user overview
  • 7.3.4. APAC market by End-user overview
  • 7.3.5. MEA market by End-user overview
  • 7.3.6. LATAM market by End-user overview

8. Market Forecast to 2032 by Systems

• 8.1. Photonic Components for Defence and Space Applications Market by Systems overview
• 8.2. Photonic Components for Defence and Space Applications market Systems by Region overview
  • 8.2.1. LW market by Region overview
  • 8.2.2. CM market by Region overview
  • 8.2.3. C3 market by Region overview
  • 8.2.4. EO/IR market by Region overview
  • 8.2.5. RDR market by Region overview
• 8.3. Photonic Components for Defence and Space Applications market Systems by End-user overview
  • 8.3.1. LW market by End-user overview
  • 8.3.2. CM market by End-user overview
  • 8.3.3. C3 market by End-user overview
  • 8.3.4. EO/IR market by End-user overview
  • 8.3.5. RDR market by End-user overview

9. Market Forecast to 2032 by End-user

• 9.1. Photonic Components for Defence and Space Applications Market by End-user overview
• 9.2. Photonic Components for Defence and Space Applications market End-user by Region overview
  • 9.2.1. Air market by Region overview
  • 9.2.2. Ground market by Region overview
  • 9.2.3. Naval market by Region overview
  • 9.2.4. Space market by Region overview
• 9.3. Photonic Components for Defence and Space Applications market End-user by Systems overview
  • 9.3.1. Air market by Systems overview
  • 9.3.2. Ground market by Systems overview
  • 9.3.3. Naval market by Systems overview
  • 9.3.4. Space market by Systems overview

10. Market Forecast to 2032 Scenario 2

• 10.1. Photonic Components for Defence and Space Applications Market by Region overview
• 10.2. Photonic Components for Defence and Space Applications Market by Systems overview
• 10.3. Photonic Components for Defence and Space Applications Market by End-user overview

11. Impact Analysis

• 11.1. Introduction
• 11.2. Forecast factors and Market Impact

12. Leading Companies

• 12.1. AIM Photonics
  • 12.1.1. Introduction
  • 12.1.2. Related Products and Services
  • 12.1.3. Recent Developments
  • 12.1.4. SWOT Analysis
• 12.2. AIO CORE
  • 12.2.1. Introduction
  • 12.2.2. Related Products and Services
  • 12.2.3. Recent Developments
  • 12.2.4. SWOT
• 12.3. Coherent
  • 12.3.1. Introduction
  • 12.3.2. Related Products and Services
  • 12.3.3. Recent Developments
  • 12.3.4. SWOT Analysis
• 12.4. Innolume
  • 12.4.1. Introduction
  • 12.4.2. Related Products and Services
  • 12.4.3. Recent Developments
  • 12.4.4. ?SWOT Analysis
• 12.5. IPG Photonics Corporation
  • 12.5.1. Introduction
  • 12.5.2. Related Products and Services
  • 12.5.3. SWOT Analysis
• 12.6. Hamamatsu Photonics K.K.
  • 12.6.1. Introduction
  • 12.6.2. Related Products and Services
  • 12.6.3. Recent Developments
  • 12.6.4. SWOT Analysis
• 12.7. Lumentum
  • 12.7.1. Introduction
  • 12.7.2. Related Products and Services
  • 12.7.3. Recent Developments
  • 12.7.4. SWOT Analysis
• 12.8. Molex
  • 12.8.1. Introduction
  • 12.8.2. Related Products and Services
  • 12.8.3. SWOT Analysis
• 12.9. nLight
  • 12.9.1. Introduction
  • 12.9.2. Related Products and Services
  • 12.9.3. Recent Developments and Contracts
  • 12.9.4. SWOT Analysis
• 12.10. Photonis (Exosense)
  • 12.10.1. Introduction
  • 12.10.2. Related Products and Services
  • 12.10.3. Recent Developments and Contracts
  • 12.10.4. SWOT Analysis
• 12.11. TRUMPF
  • 12.11.1. Introduction
  • 12.11.2. Related Products and Services
  • 12.11.3. SWOT Analysis

13. Results and Conclusions

14. About Market Forecast

• 14.1. General
• 14.2. Contact us
• 14.3. Disclaimer
• 14.4. License

Appendix A: Companies Mentioned

Appendix B: Abbreviations

Appendix C: Key Photonic Systems' Suppliers

List of figures

• Figure 1: Photonic Components Market Summary by Region
• Figure 2: Photonic Components for Defence and Space Applications CAGR by Region
• Figure 3: Photonic Components for Defence and Space Applications Market Summary by Systems
• Figure 4: Photonic Components for Defence and Space Applications CAGR by Systems
• Figure 5: Photonic Components for Defence and Space Applications Market Summary by End-User
• Figure 6: Photonic Components for Defence and Space Applications CAGR by End-User
• Figure 7: Market volumes over the forecast period per region
• Figure 8: Market Segmentation and Sub-Segmentation Photonic Components Market
• Figure 9: Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region [US$ millions]
• Figure 10: Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region %
• Figure 11: N. Am. Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems
• Figure 12: EU-27 Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems
• Figure 13: Non EU-27 Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems
• Figure 14: APAC Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems
• Figure 15: MEA Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems
• Figure 16: LATAM Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems
• Figure 17: N. Am. Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user
• Figure 18: EU-27 Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user
• Figure 19: Non EU-27 Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user
• Figure 20: APAC Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user
• Figure 21: MEA Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user
• Figure 22: LATAM Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user
• Figure 23: Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems [US$ millions]
• Figure 24: Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems %
• Figure 25: LW Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region
• Figure 26: CM Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region
• Figure 27: C3 Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region
• Figure 28: EO/IR Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region
• Figure 29: RDR Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region
• Figure 30: LW Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user
• Figure 31: CM Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user
• Figure 32: C3 Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user
• Figure 33: EO/IR Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user
• Figure 34: RDR Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user
• Figure 35: Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user [US$ millions]
• Figure 36: Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user %
• Figure 37: Air Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region
• Figure 38: Ground Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region
• Figure 39: Naval Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region
• Figure 40: Space Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region
• Figure 41: Air Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems
• Figure 42: Ground Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems
• Figure 43: Naval Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems
• Figure 44: Space Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems
• Figure 45: Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region [US$ millions]
• Figure 46: Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region %
• Figure 47: Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems [US$ millions]
• Figure 48: Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems %
• Figure 49: Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user [US$ millions]
• Figure 50: Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user %
• Figure 51: Photonic Components Market Forecast to 2031 Scenario I Vs. Scenario II

List of tables

• Table 1: Photonic Components Market Summary by Region [US$ million]
• Table 2:Photonic Components for Defence and Space Applications Market Summary by Systems [US$ million]
• Table 3: Photonic Components for Defence and Space Applications Market Summary by End-User [US$ million]
• Table 4: Acquisitions in Photonics Industry
• Table 5: Partnerships in Photonics Industry
• Table 6: Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region [US$ millions]
• Table 7: N. Am. Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems [US$ millions]
• Table 8: EU-27 Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems [US$ millions]
• Table 9: Non EU-27 Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems [US$ millions]
• Table 10: APAC Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems [US$ millions]
• Table 11: MEA Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems [US$ millions]
• Table 12: LATAM Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems [US$ millions]
• Table 13: N. Am. Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user [US$ millions]
• Table 14: EU-27 Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user [US$ millions]
• Table 15: Non EU-27 Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user [US$ millions]
• Table 16: APAC Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user [US$ millions]
• Table 17: MEA Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user [US$ millions]
• Table 18: LATAM Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user [US$ millions]
• Table 19: Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems [US$ millions]
• Table 20: LW Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region [US$ millions]
• Table 21: CM Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region [US$ millions]
• Table 22: C3 Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region [US$ millions]
• Table 23: EO/IR Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region [US$ millions]
• Table 24: RDR Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region [US$ millions]
• Table 25: LW Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user [US$ millions]
• Table 26: CM Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user [US$ millions]
• Table 27: C3 Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user [US$ millions]
• Table 28: EO/IR Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user [US$ millions]
• Table 29: RDR Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user [US$ millions]
• Table 30: Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user [US$ millions]
• Table 31: Air Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region [US$ millions]
• Table 32: Ground Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region [US$ millions]
• Table 33: Naval Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region [US$ millions]
• Table 34: Space Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region [US$ millions]
• Table 35: Air Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems [US$ millions]
• Table 36: Ground Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems [US$ millions]
• Table 37: Naval Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems [US$ millions]
• Table 38: Space Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems [US$ millions]
• Table 39: Photonic Components for Defence and Space Applications Market Forecast to 2032 by Region [US$ millions]
• Table 40: Photonic Components for Defence and Space Applications Market Forecast to 2032 by Systems [US$ millions]
• Table 41: Photonic Components for Defence and Space Applications Market Forecast to 2032 by End-user [US$ millions]
• Table 42: Photonic Components Market Forecast to 2032 Scenario I Vs. Scenario II [US$ million]
• Table 43: AIM Photonics Company SWOT Analysis
• Table 44: AIO Core Company SWOT Analysis
• Table 45: Coherent Company SWOT Analysis
• Table 46: Innolume Company SWOT Analysis
• Table 47: IPG Photonics Company SWOT Analysis
• Table 48: Hamamatsu Photonics K.K. Company SWOT Analysis
• Table 49: Lumentum Company SWOT Analysis
• Table 50: Molex Company SWOT Analysis
• Table 51: nLight Company SWOT Analysis
• Table 52: Photonis Company SWOT Analysis
• Table 53: Photonis Company SWOT Analysis
• Table 54: Key DIRCM Manufacturers
• Table 55: Key Laser Weapon System Manufacturers
• Table 56: Key Communication System Manufacturers
• Table 57: Key LiDAR System Manufacturers
• Table 58: Key Imaging System Manufacturers
• Table 59: Key Targeting, Rangefinders and Detectors Manufacturers
• Table 60: Key Photonic Radar System Manufacturers