Photonic Integrated Circuit (IC) & Quantum Computing Market-By Application (Optical Fiber Communication, Optical Fiber Sensors, Biomedical), Integration (Hybrid, Module & Monolithic), Components, Raw Materials & Geography (2012 - 2022)

NEW YORK, Dec. 31, 2012 /PRNewswire/ -- Reportlinker.com announces that a new market research report is available in its catalogue:

Photonic Integrated Circuit (IC) & Quantum Computing Market-By Application (Optical Fiber Communication, Optical Fiber Sensors, Biomedical), Integration (Hybrid, Module & Monolithic), Components, Raw Materials & Geography (2012 – 2022)

http://www.reportlinker.com/p01054399/Photonic-Integrated-Circuit-IC--Quantum-Computing-Market-By-Application-Optical-Fiber-Communication-Optical-Fiber-Sensors-Biomedical-Integration-Hybrid-Module--Monolithic-Components-Raw-Materials--Geography-2012-–-2022.html#utm_source=prnewswire&utm_medium=pr&utm_campaign=Network_Equipment

Photonic Integrated circuits (PIC) is a breakthrough technology as it uses photons (smallest unit of light) as the data carrier instead of electrons (smallest unit of electricity) used in electronic ICs. As light travels at very high speeds, PIC technology is widely used to transfer huge amounts of data at a very high speed. Thus the PIC based products are primarily deployed in the field of optical fiber communications. Photonic integrated circuits market is growing at a phenomenal rate as it provides significant improvements in system size, power consumption, reliability and cost. The development of silicon photonics technology has helped in large scale manufacturing of PICs at low cost. Also current leading players have developed monolithically integrated Indium Phosphide (InP) based PICs that can integrate more than 600 components/functions in a single chip. Thus there is a huge competition in the market as each player is trying to innovate PIC based products which would be able to integrate large amounts of functions/components at low cost.

Optical sensors application is the other promising application in this market. It is used in fields like defense, aerospace, energy, transportation, medicine and other emerging fields. Quantum computing is another application of PICs which is forecasted to be commercialized in 2017. This technology is expected to completely revolutionize the computing industry. PICs are also used in biomedical field. InP-based application specific photonic ICs are being used for the diagnostic analysis of opaque skin tissue. The technique principally used here is Optical Coherence Tomography (OCT) or Raman Scatterometry.

At present North America has the largest market for PIC based products, especially in data centers and WAN applications of optical fiber communications. However, APAC is the largest player in the access network application of optical fiber communications right now. North America is the leader in PIC market with 49% market share however it is estimated that APAC will emerge as the market leader by 2022 growing at a CAGR of 35.9% from 2012 to 2022.

The report covers recent developments in the PIC industry like NeoPhotonics (U.S.) acquiring Santur Corporation (U.S.) in October 2011 and the acquisition of Opnext (U.S.) by Oclaro(U.S.). Several other acquisitions, mergers, new product launch, agreements etc. have taken place recently and are discussed in the report.

The growth of Photonic IC market is expected to be phenomenal with the revenue growth from $150.4 million in 2012 to $1,547.6 million by 2022, at an estimated CAGR of 26.3% from 2012 to 2022. The major players in the PICs industry are Infinera Corporation (U.S.), NeoPhotonics Corporation (U.S.), Oclaro (U.S.), Luxtera (U.S.), Kotura (U.S.), OneChip Photonics (CA) etc These players have played a great role in changing the market dynamics. For example Infinera has introduced 500 Gb/s PICs used in long haul flex coherent super channels. The main features of this product are simplicity, scalability, efficiency and reliability. On the other hand Neophotonics has developed an Optical Line Terminal Transceiver using Photonic Integrated Circuit Technology which is designed to lower the overall cost of FTTH network installation.

Scope of the report

This research report categorizes the global PIC market, based on integration, raw materials and applications; it also covers the forecasted revenue from 2012 to 2022 and future applications of PIC. It describes the deployments of PIC technology in various regions. The report describes the applications mapping of the PIC market with respect to the growth potential and adoption by the users.

On the basis of Integration

The global PIC market on the basis of integration consists of module, hybrid and monolithic PICs. The report covers the market of PICs based on these integration techniques across North America, Europe, Asia-Pacific, and ROW.

On the basis of Raw Materials

The PIC market has also been segregated based on raw materials used to fabricate PICs such as Lithium Niobate, Silica on Silicon, silicon on Insulator, Indium Phosphide and allium Arsenide.

On the basis of application areas

Application areas of Photonic Integrated Circuit have been categorized into Optical Fiber communication, optical fiber sensors, Biomedical and quantum computing. The market trend for these applications is discussed

On the basis of geography

Geographical analysis covers North America, Europe, Asia-Pacific, and ROW.

TABLE OF CONTENTS

1 INTRODUCTION 18

1.1 KEY TAKE-AWAYS 18

1.2 REPORT DESCRIPTION 18

1.3 MARKETS COVERED 19

1.4 STAKEHOLDERS 19

1.5 RESEARCH METHODOLOGY 20

1.5.1 MARKET SIZE 23

1.5.2 KEY DATA POINTS TAKEN FROM PRIMARY SOURCES 23

1.5.3 ASSUMPTIONS MADE FOR THIS REPORT 23

1.5.4 LIST OF COMPANIES COVERED DURING STUDY 24

2 EXECUTIVE SUMMARY 25

3 MARKET OVERVIEW 30

3.1 INTRODUCTION 31

3.2 MARKET DEFINITION 31

3.3 EVOLUTION AND HISTORY OF PHOTONIC ICs 32

3.4 ADVANTAGES OF PHOTONIC ICs OVER CONVENTIONAL ICs 33

3.5 MARKET DYNAMICS 34

3.5.1 DRIVERS 34

3.5.1.1 Cost reduction 35

3.5.1.2 Size reduction 36

3.5.1.3 Increased functionality 37

3.5.1.4 Higher power efficiency 39

3.5.2 RESTRAINTS 40

3.5.2.1 Lack of digitization 40

3.5.2.2 Lack of standardization in the common fabrication and process techniques 41

3.5.3 OPPORTUNITIES 41

3.5.3.1 Photonic Computing 41

3.5.4 BURNING ISSUE 41

3.5.4.1 Lack of foundries 41

3.5.5 WINNING IMPERATIVES 42

3.5.5.1 Photons as the data carrier 42

3.6 PORTER'S FIVE FORCES MODEL 43

3.6.1 INTENSITY OF THE RIVALRY 43

3.6.2 THREAT OF NEW ENTRANTS 44

3.6.3 THREAT OF SUBSTITUTES 44

3.6.4 BARGAINING POWER OF SUPPLIERS 44

3.6.5 BARGAINING POWER OF CUSTOMERS 44

4 PHOTONIC PROCESSORS 45

4.1 ABOUT PHOTONIC PROCESSOR 45

4.2 PHOTONIC PROCESSORS: OPTICAL VS ELECTRONIC PROCESSORS 47

4.3 FUTURE APPLICATIONS OF PHOTONIC PROCESSORS 49

4.3.1 PHOTONIC COMPUTING 49

4.3.1.1 Advantages of Photonic Computing 49

4.4 COMPONENTS OF PHOTONIC PROCESSORS 50

4.4.1 OPTICAL TRANSISTOR 50

4.4.2 OPTICAL GATE AND SWITCH 51

4.4.2.1 Operation 52

4.4.2.2 Types of Optical Switches 53

4.4.2.3 Uses of Optical Switches 53

4.4.3 HOLOGRAPHIC MEMORY 54

4.4.3.1 Working Principle of Holography 54

4.4.4 INPUT-OUTPUT DEVICES 55

5 PHOTONIC IC MARKET BY TYPE OF INTEGRATION 56

5.1 INTRODUCTION 57

5.2 HYBRID 58

5.3 MONOLITHIC 64

5.4 MODULE 69

6 PHOTONIC IC BY COMPONENTS 75

6.1 LASERS 75

6.1.1 WORKING PRINCIPLE OF A LASER 75

6.2 MODULATORS 80

6.3 PHOTO DETECTORS 82

6.3.1 IMPORTANT PROPERTIES OF PHOTO DETECTORS 83

6.4 ATTENUATORS 85

6.4.1 FIXED FIBER-OPTIC ATTENUATORS 85

6.4.2 BUILT-IN VARIABLE FIBER-OPTIC ATTENUATORS 86

6.4.3 VARIABLE FIBER-OPTIC TEST ATTENUATORS: 86

6.5 OPTICAL AMPLIFIERS 88

7 PHOTONIC IC MARKET BY RAW MATERIALS 92

7.1 INTRODUCTION 93

7.2 LITHIUM NIOBATE 94

7.3 SILICA-ON-SILICON 96

7.4 SILICON-ON-INSULATOR 98

7.5 GALIUM ARSENIDE 101

7.6 INDIUM PHOSPHIDE 103

8 PHOTONIC IC MARKET BY APPLICATIONS 107

8.1 INTRODUCTION 108

8.2 OPTICAL FIBER COMMUNICATIONS 109

8.3 OPTICAL FIBER SENSOR 120

8.4 BIOMEDICAL 126

8.5 QUANTUM COMPUTING 128

8.5.1 COMPARISON OF CLASSICAL AND QUANTUM COMPUTING 128

8.6 OTHERS 130

8.6.1 METROLOGY 130

8.6.2 SUBMARINES 131

9 PHOTONIC IC MARKET BY GEOGRAPHY 132

9.1 INTRODUCTION 133

9.2 NORTH AMERICA 134

9.3 EUROPE 138

9.4 APAC 142

9.5 ROW 146

10 COMPETITIVE LANDSCAPE 149

10.1 LEADING COMPANIES IN PHOTONIC INTEGRATED CIRCUIT 149

10.2 KEY GROWTH STRATEGIES 150

10.3 NEW PRODUCT LAUNCH/DEVELOPMENT 151

10.4 MERGERS & ACQUISITIONS 157

10.5 PARTNERSHIPS/AGREEMENTS/STRATEGIC ALLIANCE/ COLLABORATION 160

11 COMPANY PROFILES 164

(Overview, Financials, Products & Services, Strategy, & Developments)*

11.1 AGILENT TECHNOLOGIES 164

11.2 AIFOTEC AG 169

11.3 ALCATEL-LUCENT 172

11.4 AVAGO TECHNOLOGIES 175

11.5 CIENA CORPORATION 178

11.6 CYOPTICS 182

11.7 EMCORE CORPORATION 186

11.8 ENABLENCE TECHNOLOGIES 189

11.9 FINISAR CORPORATION 192

11.10 HEWLETT-PACKARD 195

11.11 INFINERA CORPORATION 198

11.12 INTEL CORPORATION 202

11.13 JDS UNIPHASE CORPORATION 206

11.14 KAIAM CORPORATION 210

11.15 KOTURA 212

11.16 LUXTERA 215

11.17 NEOPHOTONICS CORPORATION 218

11.18 OCLARO 222

11.19 ONECHIP PHOTONICS 227

11.20 TE CONNECTIVITY 230

*Details on Financials, Product & Services, Strategy, & Developments might not be captured in case of unlisted companies.

LIST OF TABLES

TABLE 1 RESEARCH METHODOLOGY ADOPTED 20

TABLE 2 GLOBAL PHOTONIC IC MARKET REVENUE, BY APPLICATIONS,

2012 – 2022 ($MILLION) 26

TABLE 3 GLOBAL PHOTONIC IC MARKET REVENUE, BY GEOGRAPHY,

2012 – 2022 ($MILLION) 27

TABLE 4 GLOBAL PHOTONIC IC MARKET REVENUE, BY INTEGRATION,

2012 – 2022 ($MILLION) 28

TABLE 5 GLOBAL PHOTONIC IC MARKET REVENUE, BY RAW MATERIALS,

2012 – 2022 ($MILLION) 29

TABLE 6 ADVANTAGE OF PHOTONIC IC 33

TABLE 7 COMPARISON BETWEEN ELECTRONIC AND PHOTONIC IC 38

TABLE 8 TYPE OF OPTICAL SWITCHES 53

TABLE 9 HOLOGRAPHIC MEMORY VS CONVENTIONAL STORAGE DEVICES 55

TABLE 10 PHOTONIC IC MARKET REVENUE, BY INTEGRATION,

2012 – 2022 ($MILLION) 57

TABLE 11 COMPARISON OF INTEGRATION TECHNIQUES 58

TABLE 12 GLOBAL HYBRID PHOTONIC IC MARKET REVENUE, BY GEOGRAPHY, 2012 – 2022 ($MILLION) 59

TABLE 13 NORTH AMERICA: HYBRID PHOTONIC IC MARKET REVENUE,

BY COUNTRY, 2012 – 2022 ($MILLION) 60

TABLE 14 EUROPE: HYBRID PHOTONIC IC MARKET REVENUE, BY COUNTRY,

2012 – 2022 ($MILLION) 61

TABLE 15 APAC: HYBRID PHOTONIC IC MARKET REVENUE, BY COUNTRY,

2012 – 2022 ($MILLION) 62

TABLE 16 ROW: HYBRID PHOTONIC IC MARKET REVENUE, BY COUNTRY,

2012 – 2022 ($MILLION) 63

TABLE 17 GLOBAL MONOLITHIC PHOTONIC IC MARKET REVENUE,

BY GEOGRAPHY, 2012 – 2022 ($MILLION) 64

TABLE 18 NORTH AMERICA: MONOLITHIC PHOTONIC IC MARKET REVENUE,

BY COUNTRY, 2012 – 2022 ($MILLION) 65

TABLE 19 EUROPE: MONOLITHIC PHOTONIC IC MARKET REVENUE, BY COUNTRY, 2012 – 2022 ($MILLION) 66

TABLE 20 APAC: MONOLITHIC PHOTONIC IC MARKET REVENUE, BY COUNTRY, 2012 – 2022 ($MILLION) 67

TABLE 21 ROW: MONOLITHIC PHOTONIC IC MARKET REVENUE, BY COUNTRY, 2012 – 2022 ($MILLION) 68

TABLE 22 FEATURES OF DIFFERENT TYPE OF PHOTONIC INTEGRATION 69

TABLE 23 GLOBAL MODULE PHOTONIC IC MARKET REVENUE, BY GEOGRAPHY, 2012 – 2022 ($MILLION) 70

TABLE 24 NORTH AMERICA: MODULE PHOTONIC IC MARKET REVENUE,

BY COUNTRY, 2012 – 2022 ($MILLION) 71

TABLE 25 EUROPE: MODULE PHOTONIC IC MARKET REVENUE, BY COUNTRY,

2012 – 2022 ($MILLION) 72

TABLE 26 APAC: MODULE PHOTONIC IC MARKET REVENUE, BY COUNTRY,

2012 – 2022 ($MILLION) 73

TABLE 27 ROW: MODULE PHOTONIC IC MARKET REVENUE, BY COUNTRY,

2012 – 2022 ($MILLION) 74

TABLE 28 ADVANTAGE OF FIBER LASER 77

TABLE 29 ADVANTAGE OF CARBON DIOXIDE LASERS 77

TABLE 30 TYPE OF LASERS 79

TABLE 31 TYPES OF OPTICAL MODULATORS 80

TABLE 32 IMPORTANT ATTRIBUTES OF AMPLIFIERS 90

TABLE 33 GLOBAL PHOTONIC IC MARKET REVENUE, BY RAW MATERIALS,

2012 – 2022 ($MILLION) 93

TABLE 34 LITHIUM NIOBATE PHOTONIC IC MARKET REVENUE, BY GEOGRAPHY, 2012 – 2022 ($MILLION) 95

TABLE 35 SILICA-ON-SILICON PHOTONIC IC MARKET REVENUE, BY GEOGRAPHY, 2012 – 2022 ($MILLION) 97

TABLE 36 APPLICATIONS OF PASSIVE COMPONENTS 98

TABLE 37 MAJOR PLAYER OF SILICON PHOTONICS 99

TABLE 38 SILICON-ON-INSULATOR PHOTONIC IC MARKET REVENUE,

BY GEOGRAPHY, 2012 – 2022 ($MILLION) 100

TABLE 39 GALLIUM ARSENIDE PHOTONIC IC MARKET REVENUE, BY GEOGRAPHY, 2012 – 2022 ($MILLION) 102

TABLE 40 CHARACTERISTICS ASSOCIATED WITH RAW MATERIAL USED FOR PIC 104

TABLE 41 COMPONENTS USED IN DIFFERENT PIC 105

TABLE 42 INDIUM PHOSPHIDE PHOTONIC IC MARKET REVENUE, BY GEOGRAPHY, 2012 – 2022 ($MILLION) 106

TABLE 43 PHOTONIC IC MARKET REVENUE, BY APPLICATIONS,

2012 – 2022 ($MILLION) 108

TABLE 44 WAVELENGTH RANGE FOR OPTICAL FIBER COMMUNICATION 111

TABLE 45 PHOTONIC IC MARKET REVENUE FOR OPTICAL FIBER COMMUNICATION APPLICATION, BY GEOGRAPHY, 2012 – 2022 ($MILLION) 112

TABLE 46 NORTH AMERICA: PHOTONIC IC MARKET REVENUE FOR OPTICAL FIBER COMMUNICATION APPLICATION, BY COUNTRY,

2012 – 2022 ($MILLION) 113

TABLE 47 EUROPE: PHOTONIC IC MARKET REVENUE FOR OPTICAL FIBER COMMUNICATION APPLICATION, BY COUNTRY,

2012 – 2022 ($MILLION) 114

TABLE 48 APAC: PHOTONIC IC MARKET REVENUE FOR OPTICAL FIBER COMMUNICATION APPLICATION, BY COUNTRY,

2012 – 2022 ($MILLION) 115

TABLE 49 ROW: PHOTONIC IC MARKET REVENUE FOR OPTICAL FIBER COMMUNICATION APPLICATION, BY COUNTRY,

2012 – 2022 ($MILLION) 116

TABLE 50 GLOBAL OPTICAL FIBER COMMUNICATION MARKET REVENUE,

BY APPLICATIONS, 2012 – 2022 ($BILLION) 116

TABLE 51 OPTICAL FIBER COMMUNICATION MARKET REVENUE FOR WAN APPLICATION, BY GEOGRAPHY, 2012 – 2022 ($BILLION) 117

TABLE 52 OPTICAL FIBER COMMUNICATION MARKET REVENUE FOR DATACOM APPLICATION, BY GEOGRAPHY, 2012 – 2022 ($BILLION) 118

TABLE 53 OPTICAL FIBER COMMUNICATION MARKET REVENUE FOR ACCESS APPLICATION, BY GEOGRAPHY, 2012 – 2022 ($BILLION) 119

TABLE 54 PHOTONIC SENSORS MARKET REVENUE, BY GEOGRAPHY,

2012 – 2017 ($BILLION) 122

TABLE 55 PHOTONIC IC MARKET REVENUE FOR OPTICAL FIBER SENSOR APPLICATION, BY GEOGRAPHY, 2012 – 2022 ($MILLION) 125

TABLE 56 PHOTONIC IC MARKET REVENUE FOR BIOMEDICAL APPLICATION,

BY GEOGRAPHY, 2012 – 2022 ($MILLION) 127

TABLE 57 PHOTONIC IC MARKET REVENUE FOR QUANTUM COMPUTING APPLICATION, BY GEOGRAPHY, 2012 – 2022 ($MILLION) 129

TABLE 58 SIGNIFICANT GROWTH OF APAC MARKET 133

TABLE 59 GLOBAL PHOTONIC IC MARKER REVENUE, BY GEOGRAPHY,

2012 – 2022 ($MILLION) 134

TABLE 60 NORTH AMERICA: PHOTONIC IC MARKET REVENUE, BY INTEGRATION, 2012 – 2022 ($MILLION) 135

TABLE 61 NORTH AMERICA: PHOTONIC IC MARKET REVENUE, BY APPLICATIONS, 2012 – 2022 ($MILLION) 136

TABLE 62 NORTH AMERICA: PHOTONIC IC MARKET REVENUE,

BY RAW MATERIALS, 2012 – 2022 ($MILLION) 137

TABLE 63 EUROPE: PHOTONIC IC MARKET REVENUE, BY INTEGRATION,

2012 – 2022 ($MILLION) 139

TABLE 64 EUROPE: PHOTONIC IC MARKET REVENUE, BY APPLICATIONS,

2012 – 2022 ($MILLION) 140

TABLE 65 EUROPE: PHOTONIC IC MARKET REVENUE, BY RAW MATERIALS,

2012 – 2022 ($MILLION) 141

TABLE 66 APAC: PHOTONIC IC MARKET REVENUE, BY INTEGRATION,

2012 – 2022 ($MILLION) 143

TABLE 67 APAC: PHOTONIC IC MARKET REVENUE, BY APPLICATIONS,

2012 – 2022 ($MILLION) 144

TABLE 68 APAC: PHOTONIC IC MARKET REVENUE, BY RAW MATERIALS,

2012 – 2022 ($MILLION) 145

TABLE 69 ROW: PHOTONIC IC MARKET REVENUE, BY INTEGRATION,

2012 – 2022 ($MILLION) 146

TABLE 70 ROW: PHOTONIC IC MARKET REVENUE, BY APPLICATIONS,

2012 – 2022 ($MILLION) 147

TABLE 71 ROW: PHOTONIC IC MARKET REVENUE, BY RAW MATERIALS,

2012 – 2022 ($MILLION) 148

TABLE 72 RANKING OF PIC BASED COMPANIES 149

TABLE 73 NEW PRODUCT LAUNCH/DEVELOPMENT (2009 – 2012) 151

TABLE 74 MERGERS & ACQUISITIONS (2009 – 2012) 157

TABLE 75 PARTNERSHIPS/AGREEMENTS/STRATEGIC ALLIANCE/

COLLABORATION (2009 – 2012) 160

TABLE 76 PRODUCT OFFERED BY AGILENT TECHNOLOGIES 165

TABLE 77 AGILENT TECHNOLOGIES: OVERALL REVENUE,

2010 – 2012 ($MILLION) 166

TABLE 78 AGILENT TECHNOLOGIES: OVERALL REVENUE, BY BUSINESS SEGMENTS, 2010 – 2011 ($MILLION) 166

TABLE 79 ALCATEL-LUCENT: OVERALL REVENUE, 2010 – 2011 ($MILLION) 173

TABLE 80 AVAGO TECHNOLOGIES : OVERALL REVENUE, 2010 – 2011 ($MILLION) 176

TABLE 81 PRODUCT PORTFOLIO OF CIENA CORPORATION 179

TABLE 82 CIENA CORPORATION: OVERALL REVENUE, 2010 – 2011 ($MILLION) 180

TABLE 83 CYOPTICS : OVERALL REVENUE, 2009 – 2010 ($MILLION) 183

TABLE 84 PRODUCT OFFERED BY EMCORE CORPORATION 187

TABLE 85 EMCORE CORPORATION: OVERALL REVENUE, 2010 – 2011 ($MILLION) 187

TABLE 86 ENABLENCE TECHNOLOGIES : OVERALL REVENUE,

2010 – 2012 ($MILLION) 190

TABLE 87 PRODUCT PORTFOLIO OF FINISAR CORPORATION 192

TABLE 88 FINISAR CORP: OVERALL REVENUE, 2011 – 2012 ($MILLION) 193

TABLE 89 PRODUCT OFFERINGS OF HP 196

TABLE 90 HP: OVERALL REVENUE, 2010 – 2011 ($MILLION) 196

TABLE 91 INFINERA CORPORATION: OVERALL REVENUE, 2010 – 2011 ($MILLION) 200

TABLE 92 INFINERA CORPORATION: MARKET REVENUE BY GEOGRAPHY,

2010 – 2011 ($MILLION) 200

TABLE 93 INTEL PRODUCTS & THEIR RANGE 202

TABLE 94 PRODUCT PORTFOLIO OF INTEL CORPORATION 203

TABLE 95 INTEL CORPORATION: OVERALL REVENUE, 2010 – 2011($MILLION) 204

TABLE 96 JDS UNIPHASE CORPORATION: OVERALL REVENUE,

2010 – 2012 ($MILLION) 207

TABLE 97 PRODUCT OFFERINGS OF NEOPHOTONICS CORPORATION 219

TABLE 98 NEOPHOTONICS CORPORATION: OVERALL REVENUE,

2010 – 2011 ($MILLION) 219

TABLE 99 NEOPHOTONIC CORPORATION: MARKET REVENUE, BY COUNTRY,

2010 – 2011 ($MILLION) 220

TABLE 100 OCLARO : OVERALL REVENUE, 2010 – 2012 ($MILLION) 223

TABLE 101 OCLARO: MARKET REVENUE, BY COUNTRY, 2010 – 2012 ($MILLION) 224

TABLE 102 TE CONNECTIVITY : OVERALL REVENUE, 2009 – 2011 ($MILLION) 231

TABLE 103 TE CONNECTIVITY: MARKET REVENUE, BY GEOGRAPHY,

2009 – 2011 ($MILLION) 232

TABLE 104 TE CONNECTIVITY: MARKET REVENUE, BY BUSINESS SEGMENT,

2009 – 2011 ($MILLION) 232

LIST OF FIGURES

FIGURE 1 STEPS IN RESEARCH METHODOLOGY 21

FIGURE 2 PHOTONIC IC MARKET RESEARCH STRATEGY 22

FIGURE 3 OVERVIEW OF PHOTONIC IC MARKET 31

FIGURE 4 EVOLUTION OF PICS 32

FIGURE 5 IMPACT ANALYSIS OF DRIVERS OF PIC 34

FIGURE 6 PACKAGING OF PHOTONIC IC AND ELECTRONIC IC 35

FIGURE 7 SIZE OF PHOTONIC INTEGRATED CIRCUIT AND ELECTRONIC INTEGRATED CIRCUIT 36

FIGURE 8 PIC INCORPORATED WITH OPTICAL DEVICES OF DIFFERENT FUNCTIONS 37

FIGURE 9 IMPACT ANALYSIS OF RESTRAINTS OF PIC 40

FIGURE 10 PORTER'S FIVE FORCE MODEL 43

FIGURE 11 OPTICAL PROCESSOR 46

FIGURE 12 PHOTONIC PROCESSOR VS ELECTRONIC PROCESSOR 48

FIGURE 13 SINGLE-MOLECULE OPTICAL TRANSISTOR 50

FIGURE 14 UNDERLYING PRINCIPLE BEHIND DEVELOPING A TRANSISTOR 51

FIGURE 15 OPTICAL SWITCH 52

FIGURE 16 SETUP OF A SIMPLE OPTICALLY PUMPED LASER 76

FIGURE 17 OPTICAL MODULATORS 81

FIGURE 18 PHOTO DETECTOR 82

FIGURE 19 OPTICAL ATTENUATOR 87

FIGURE 20 SETUP OF A MULTIPASS FEMTOSECOND AMPLIFIER 89

FIGURE 21 LITHIUM NIOBATE 94

FIGURE 22 SILICA ON SILICON 96

FIGURE 23 SILICON OR SILICON-ON-INSULATOR 99

FIGURE 24 GALLIUM ARSENIDE 101

FIGURE 25 INDIUM PHOSPHIDE 103

FIGURE 26 OPTICAL FIBER SENSING SYSTEM 120

FIGURE 27 CLASSIFICATION OF OPTICAL FIBER SENSORS 121

FIGURE 28 PIC-BASED OPTICAL SENSOR FOR HELICOPTER ROTOR BLADE MONITORING 123

FIGURE 29 DISTRIBUTED SENSING OF STRAIN AND TEMPERATURE USING AN OPTICAL FIBER AS SENSOR 124

FIGURE 30 KEY GROWTH STRATEGIES 150

To order this report:

Network_Equipment Industry: Photonic Integrated Circuit (IC) & Quantum Computing Market-By Application (Optical Fiber Communication, Optical Fiber Sensors, Biomedical), Integration (Hybrid, Module & Monolithic), Components, Raw Materials & Geography (2012 – 2022)

Contact Nicolas: nicolasbombourg@reportlinker.com
US: (805)-652-2626
Intl: +1 805-652-2626

SOURCE Reportlinker



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