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市場調査レポート

世界の顕微鏡市場

Microscopy: The Global Market

発行 BCC Research
出版日 2009年07月 商品コード 95313
ページ情報 英文 147 pages
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こちらの商品の販売は終了いたしました。

当商品の販売は、2011年08月19日を持ちまして終了しました。

アップデート版はこちらになります。

世界の顕微鏡市場
Microscopy: The Global Market
出版日: 2011年08月
商品コード: 208746

原文目次

Abstract

REPORT HIGHLIGHTS

The global market for microscopes and accessories was worth about $2.4 billion in 2008. In the midst of a global economic decline, sales are projected to fall to $2.1 billion in 2009, but are expected to rise to $3.6 billion in 2014, for a compound annual growth rate of 11.5%. The microscopes segment makes up the bulk of the market, with sales of $2 billion in 2008. Sales are projected to fall in 2009 to $1.7 billion, but rebound by 2014 to $3.1 billion, for a CAGR of 12.4%. Accessories and supplies make up the remainder of the market with sales in 2008 of $360 million, increasing slightly in 2009 to about $374 million, and reaching $513 million in 2014, for a CAGR of 6.5%.

INTRODUCTION

STUDY BACKGROUND

The field of microscopy has undergone an enormous evolution since the earliest optical microscopes were developed in the 1600s. The optical microscope has been refined continuously since its introduction, resulting in today' s superb scientific instruments. However, the optical microscope is ultimately limited in the minimum size and nature of the features it can resolve by manufacturability constraints and, ultimately, the physics of light itself.

New microscopy technologies have been developed to overcome these limitations, such as electron, scanning probe, and focused ion beam microscopy. The field of microscopy continues to evolve rapidly, as new requirements and imaging technologies are developed. While optical microscopes once accounted for the bulk of all microscopes sold in the world today, they are in the minority today.

While microscopes today are a billion-dollar industry, their true importance lies in the activities they make possible, such as life-sciences research, microelectronics, and advanced-materials science. Microscopy is particularly important to the expanding field of nanotechnology.

STUDY GOALS AND OBJECTIVES

The goal of this study is to provide the reader with an understanding of developments in microscopy technologies and applications that will influence the future size and structure of the market for various types of microscope and microscope accessories. Specific objectives include identifying segments of the microscopy market with the greatest commercial potential in the near to mid-term (2009 to 2014), identifying and, where possible, quantifying the key demand drivers, projecting future demand for different types of microscope, and evaluating the technical and other challenges that must be overcome for the market to realize its full potential

INTENDED AUDIENCE

The report is intended especially for manufacturers and vendors of microscopes and related accessories. Other readers who should find it particularly useful include entrepreneurs, investors, venture capitalists and other readers with a need to know where the microscopy market is headed over the next 5 years. The report should also be of interest to end-users such as nanotechnology companies, whose technology road maps may make critical assumptions about the availability and performance of different materials characterization technologies, including microscopes. Other potential readers include members of technical and professional organizations such as ASM International and the American Society for Nondestructive Testing.

SCOPE OF REPORT

The report addresses the global market for microscopes and microscope accessories over the period from 2008 through 2014, including:

  • Optical (light) microscopes
  • Electron microscopes
  • Scanning probe microscopes
  • Other types of microscope (e.g., focused ion beam, confocal)
  • Microscope accessories.

The report includes the following major elements:

  • Executive summary
  • Definitions
  • Brief history of microscopy
  • Microscope technologies
  • Patent analysis
  • Major end-uses and applications
  • Global market trends by type of instrument, end-user segment, geographical region
  • Technology trends, limits and; challenges
  • Industry structure (e.g., firm size and financial performance, ownership, market shares).

METHODOLOGY AND INFORMATION SOURCES

The findings and conclusions of this report are based on information gathered from industry sources, including microscope manufacturers and users. Interview data were combined with information gathered through an extensive review of secondary sources, such as trade publications, trade associations, company literature, and online databases to produce the projections contained in this report.

The base year for analysis and projection is 2008. With 2008 as a baseline, market projections were developed for 2009 to 2014. These projections are based on a combination of a consensus among the primary contacts combined with our understanding of the key market drivers and their impact from a historical and analytical perspective. The analytical methodologies used to generate the market estimates are described in detail in the section on Detailed Market Projections.

Table of Contents

Chapter- 1: INTRODUCTION -- Complimentary 4

  • STUDY BACKGROUND 1
  • STUDY GOALS AND OBJECTIVES 1
  • INTENDED AUDIENCE 1
  • SCOPE OF REPORT 2
  • METHODOLOGY AND INFORMATION SOURCES 2
  • ANALYST CREDENTIALS 3
  • RELATED BCC RESEARCH REPORTS 3
  • BCC ONLINE SERVICES 3
  • DISCLAIMER 4

Chapter-2: SUMMARY 2

  • SUMMARY TABLE GLOBAL MARKET FOR MICROSCOPES, ACCESSORIES AND SUPPLIES, THROUGH 2014 ($ MILLIONS) 5
  • SUMMARY FIGURE GLOBAL MARKET FOR MICROSCOPES, ACCESSORIES AND SUPPLIES, 2008-2014 ($ MILLIONS) 5
  • SUMMARY (CONTINUED) 6

Chapter-3: MICROSCOPY OVERVIEW 86

  • GENERAL DESCRIPTION 7
  • DEFINITIONS 7
  • Charged Particle 7
  • Compound Microscope 7
  • Confocal Microscope 7
  • Depth of Field 7
  • Dispersion 8
  • Eyepiece 8
  • Inverted Microscope 8
  • Immersion Media 8
  • Lens 8
  • FIGURE 1 MAGNIFYING LENS PRINCIPLES 9
  • Magnification 9
  • Nanoscale 9
  • Near Field 10
  • Numerical Aperture 10
  • Objective 10
  • Phase Shift 10
  • FIGURE 2 LIGHT WAVE PHASES 11
  • Polarization 11
  • FIGURE 3 POLARIZATION 12
  • Reflected Light Microscopes 12
  • Reflecting Microscope 12
  • Refraction 13
  • FIGURE 4 REFRACTION 13
  • Resolution 13
  • Scanning Probe 14
  • Stereoscopic 14
  • Tunneling Current 14
  • Wavelength 14
  • FIGURE 5 LIGHT WAVE 15
  • FIGURE 6 WAVELENGTHS USED IN OPTICAL MICROSOCOPY (NM) 15
  • BRIEF HISTORY OF MICROSCOPY 16
  • Brief History of Microscopy (Continued) 16
  • TYPES OF MICROSCOPE 17
  • OPTICAL MICROSCOPES 18
  • Description and Applications 18
  • TABLE 1 TYPES OF OPTICAL MICROSCOPES AND THEIR MAIN APPLICATIONS 18
  • Upright (Compound) Microscopes 18
  • Binocular Stereomicroscopes 19
  • Polarizing Microscopes 19
  • Metallographic Microscopes 20
  • Reflecting Microscopes 20
  • FIGURE 7 REFLECTING MICROSCOPE 21
  • Phase-Contrast Microscopes 21
  • FIGURE 8 BASIC PRINCIPLE OF A PHASE-CONTRAST MICROSCOPE 22
  • Fluorescence Microscope 23
  • FIGURE 9 FLUORESCENCE MICROSCOPY PRINCIPLES 23
  • FIGURE 10 FLUORESCENCE MICROSCOPE LAYOUT 24
  • Confocal Microscopes 25
  • FIGURE 11 PRINCIPLES OF CONFOCAL MICROSCOPY 26
  • Confocal ...(continued) 27
  • Near-Field Scanning Optical Microscopes 28
  • FIGURE 12 29
  • SCANNING NEAR FIELD OPTICAL MICROSCOPE PRINCIPLES 29
  • Inverted Microscopes 30
  • Other Types of Optical Microscope 30
  • " Advanced Confocal Microscopy 31
  • " Phase-Sensitive Scatter-Field Optical Imaging 31
  • " Stochastic Optical Reconstruction Microscopy 31
  • " Stimulated Emission Depletion Microscopy 32
  • " Structured Illumination Microscopy 32
  • " Second Harmonic Generation Microscopy 32
  • Patent Analysis 33
  • Technologies 33
  • TABLE 2 U.S. OPTICAL MICROSCOPY PATENTS (NUMBER OF PATENTS/PATENT APPLICATIONS BY TYPE OF TECHNOLOGY) 33
  • FIGURE 13 OPTICAL MICROSCOPY PATENTS BY TYPE OF TECHNOLOGY (PERCENT OF TOTAL PATENTS AS OF JUNE 1, 2009) 34
  • Trends over Time 34
  • TABLE 3 OPTICAL MICROSOCOPY PATENTS ISSUED ANNUALLY BY TYPE OF TECHNOLOGY, 2004-2008 (NUMBER OF PATENTS) 35
  • FIGURE 14 OPTICAL MICROSOCOPY PATENTS ISSUED ANNUALLY BY TYPE OF TECHNOLOGY, 2004-2008 (NUMBER OF PATENTS) 35
  • Patent Holders 36
  • TABLE 4 PATENT HOLDERS AND APPLICANTS 36
  • FIGURE 15 MAJOR OPTICAL MICROSCOPY PATENT HOLDERS (%) 37
  • TABLE 5 OPTICAL MICROSCOPY PATENT HOLDERS BY TECHNOLOGY TYPE (NUMBER OF PATENTS) 37
  • FIGURE 16 MAJOR OPTICAL MICROSCOPY PATENT HOLDERS BY TECHNOLOGY TYPE (PERCENTAGES OF TOTAL PATENTS) 38
  • Manufacturers 39
  • TABLE 6 OPTICAL MICROSCOPE MANUFACTURERS 39
  • CHARGED PARTICLE MICROSCOPES 40
  • Description and Applications 40
  • TABLE 7 TYPES OF CHARGED PARTICLE MICROSCOPES AND THEIR MAIN APPLICATIONS 40
  • TABLE 7 (CONTINUED) 41
  • Transmission Electron Microscopes 41
  • Transmission ... (Continued) 42
  • FIGURE 17 TRANSMISSION ELECTRON MICROSCOPE 43
  • Scanning Electron Microscopes 44
  • FIGURE 18 SCANNING ELECTRON MICROSCOPE 45
  • FIGURE 19 SCANNING ELECTRON MICROSCOPE-SAMPLE INTERACTION 46
  • " Environmental Scanning Electron Microscope (ESEM) 47
  • " Field Emission Scanning Electron Microscopes (FESEM) 47
  • " Field Ion Microscopes (FIM) 48
  • Other Types of Electron Microscope 48
  • " Electron-Probe Microanalyzer (EPMA) 48
  • " Scanning Transmission Electron Microscopes 49
  • " High-voltage Electron Microscopes 49
  • " Focused Ion Beam (FIB) Microscopes 50
  • " Reflection Electron Microscope 51
  • " Low Energy Electron Microscopy 51
  • " Photo-Electron Emission Microscope 52
  • Patent Analysis 52
  • Technologies 52
  • TABLE 8 U.S. CHARGED PARTICLE MICROSCOPY PATENTS AND PATENT APPLICATIONS (NUMBER AND PERCENT OF U.S. PATENTS ISSUED THROUGH JUNE 1, 2009) 52
  • TABLE 8 (CONTINUED) 53
  • FIGURE 20 U.S. CHARGED-PARTICLE MICROSCOPY PATENTS BY TYPE OF TECHNOLOGY (PERCENT OF U.S. PATENTS ISSUED THROUGH JUNE 1, 2009) 53
  • Trends over Time 54
  • TABLE 9 CHARGED PARTICLE MICROSOCOPY PATENTS ISSUED ANNUALLY BY TYPE OF TECHNOLOGY, 2004-2008 (NUMBER OF PATENTS) 54
  • FIGURE 21 CHARGED-PARTICLE MICROSCOPY PATENTS ISSUED ANNUALLY BY TYPE OF TECHNOLOGY, 2004-2008 (NUMBER OF PATENTS ISSUED ANNUALLY) 55
  • Patent Holders 55
  • TABLE 10 CHARGED PARTICLE MICROSCOPY U.S. PATENTS PATENTS ISSUED AND APPLICATIONS PENDING THROUGH JUNE 1, 2009) 56
  • FIGURE 22 CHARGED-PARTICLE MICROSCOPE U.S. PATENT HOLDERS (% OF TOTAL PATENTS ISSUED THROUGH JUNE 1, 2009) 56
  • TABLE 11 CHARGED-PARTICLE MICROSCOPY PATENT HOLDERS, BY TECHNOLOGY TYPE (NUMBER OF PATENTS) 57
  • FIGURE 23 MAJOR CHARGED-PARTICLE MICROSCOPY PATENT HOLDERS, BY TECHNOLOGY TYPE (PERCENTAGES OF TOTAL PATENTS) 57
  • FIGURE 23 (CONTINUED) 58
  • Manufacturers 58
  • TABLE 12 CHARGED-PARTICLE MICROSCOPE MANUFACTURERS 58
  • TABLE 12 (CONTINUED) 59
  • SCANNING-PROBE MICROSCOPES 59
  • Description and Applications 59
  • FIGURE 24 SCANNING-PROBE MICROSCOPE 60
  • TABLE 13 TYPES OF SCANNING-PROBE MICROSCOPES AND THEIR MAIN APPLICATIONS 61
  • Scanning Tunneling Microscopes 61
  • Atomic Force Microscopes 62
  • FIGURE 25 ATOMIC FORCE MICROSCOPE PROBE 63
  • Other Types of Scanning Probe Microscope 64
  • " Magnetic Force Microscopes 65
  • " Electric Force Microscopes 65
  • " Scanning Thermal Microscopy 66
  • Patent Analysis 66
  • Technologies 67
  • TABLE 14 U.S. SCANNING PROBE MICROSCOPY PATENTS AND PATENT APPLICATIONS 67
  • FIGURE 26 SCANNING PROBE MICROSCOPY PATENTS BY TYPE OF TECHNOLOGY (PERCENT OF ISSUED PATENTS AS OF JUNE 1, 2009) 67
  • Trends over Time 68
  • TABLE 15 SCANNING PROBE MICROSOCOPY PATENTS ISSUED ANNUALLY BY TYPE OF TECHNOLOGY, 2004-2008 (NUMBER OF PATENTS) 68
  • FIGURE 27 SCANNING PROBE MICROSCOPY PATENTS ISSUED ANNUALLY BY TYPE OF TECHNOLOGY, 2004-2008 (NUMBER OF PATENTS ISSUED ANNUALLY) 69
  • Patent Holders 69
  • TABLE 16 SCANNING PROBE MICROSCOPY U.S. PATENT HOLDERS AND APPLICANTS 70
  • FIGURE 28 SCANNING PROBE MICROSCOPE PATENT HOLDERS (% OF TOTAL U.S. PATENTS ISSUED THROUGH JUNE 1, 2009) 70
  • TABLE 17 SCANNING PROBE MICROSCOPY PATENT HOLDERS BY TECHNOLOGY TYPE (NUMBER OF PATENTS) 71
  • FIGURE 29 MAJOR SPM PATENT HOLDERS BY TECHNOLOGY TYPE (PERCENTAGES OF TOTAL PATENTS) 71
  • FIGURE 29 (CONTINUED) 72
  • Manufacturers 72
  • TABLE 18 SCANNING PROBE MICROSCOPE MANUFACTURERS 72
  • ACCESSORIES AND SUPPLIES 73
  • Description and Applications 73
  • TABLE 19 MICROSCOPE ACCESSORIES AND THEIR MAIN FUNCTIONS 73
  • Photo-microscopy Equipment 73
  • Illumination Systems 74
  • Microscope Stages and Accessories 74
  • Eyepieces 75
  • Objectives 75
  • Scanning Probes 75
  • Consumables 76
  • Patent Analysis 76
  • Accessory Types 76
  • TABLE 20 U.S. MICROSCOPE ACCESSORY PATENTS AND PATENT APPLICATIONS 77
  • FIGURE 30 U.S. MICROSCOPE ACCESSORY PATENTS BY ACCESSORY TYPE (PERCENT OF TOTAL PATENTS ISSUED AS OF JUNE 1, 2009) 77
  • Patent Holders 78
  • TABLE 21 MICROSCOPE ACCESSORY U.S. PATENT HOLDERS AND APPLICANTS 78
  • FIGURE 31 MICROSCOPE ACCESSORY PATENT HOLDERS (PERCENT OF PATENTS ISSUED THROUGH JUNE 1, 2009) 78
  • Manufacturers 79
  • TABLE 22 MICROSCOPE ACCESSORY MANUFACTURERS 79
  • END USERS 79
  • TABLE 23 MICROSCOPE END-USER INDUSTRIES 80
  • SEMICONDUCTORS 81
  • Optical Microscopes 81
  • Charged Particle Microscopes 82
  • Scanning Probe Microscopes 83
  • LIFE SCIENCES 83
  • TABLE 24 GLOBAL LIFE SCIENCES SALES, 2008 ($ BILLIONS) 83
  • Optical Microscopes 84
  • Charged Particle Microscopes 84
  • MATERIALS SCIENCE 85
  • FIGURE 32 MATERIALS SCIENCE INSTRUMENT MAJOR MARKET SEGMENTS, 2008 (PERCENT OF TOTAL SALES) 86
  • Optical Microscopes 86
  • Charged Particle Microscopes 87
  • Scanning Probe Microscopes 88
  • NANOTECHNOLOGY 89
  • Charged Particle Microscopes 89
  • Scanning Probe Microscopes 89
  • OTHER END USERS 89
  • Education 90
  • Optical Microscopes 90
  • Other Types of Microscopes 90
  • Environmental Science 90
  • Optical Microscopes 90
  • Charged Particle Microscope 91
  • Forensics 91
  • Optical Microscopes 91
  • Charged Particle Microscopes 92
  • Food Processing 92
  • Optical Microscopes 92
  • Charged Particle Microscopes 92

Chapter-4: GLOBAL MARKET FOR MICROSCOPES AND ACCESSORIES 2008 TO 2014 40

  • OVERALL MARKET SIZE AND SEGMENTATION 93
  • DETAILED MARKET ANALYSIS AND PROJECTIONS 93
  • MARKET BY TYPE OF INSTRUMENT 93
  • TABLE 25 PROJECTED GLOBAL MICROSCOPE SALES BY PRODUCT TYPE, THROUGH 2014 ($ MILLION) 93
  • FIGURE 33 TRENDS IN GLOBAL SALES OF MICROSCOPES, ACCESSORIES AND SUPPLIES, 2008-2014 ($ MILLIONS) 94
  • FIGURE 34 GLOBAL MICROSCOPY MAJOR MARKET SEGMENTS, 2008 VS. 2014 (%) 95
  • Optical Microscopes 96
  • Optical Microscope Market Size and Segmentation 96
  • TABLE 26 GLOBAL OPTICAL MICROSCOPE SALES, 2008 ($ MILLIONS) 96
  • FIGURE 35 GLOBAL OPTICAL MICROSCOPE MARKET SEGMENTATION, 2008 (% OF TOTAL OPTICAL MICROSCOPE SALES) 97
  • Market Drivers 97
  • " Spending on Educational Equipment 98
  • TABLE 27 U.S. EDUCATIONAL EXPENDITURES, THROUGH 2006 ($ BILLIONS) 98
  • FIGURE 36 TRENDS IN U.S. EDUCATIONAL EXPENDITURES, 1997-2006 ($ BILLIONS) 98
  • " Trends in Infrared Spectroscopy 99
  • TABLE 28 GLOBAL MOLECULAR SPECTROMETRY SALES, THROUGH 2014 ($ BILLIONS) 99
  • " Life Sciences R & D and Healthcare Spending 99
  • TABLE 29 GLOBAL LIFE SCIENCES R&D SPENDING THROUGH 2014 ($ BILLIONS) 100
  • FIGURE 37 GLOBAL TRENDS IN LIFE SCIENCES R&D SPENDING 2008-2014 ($ BILLIONS) 100
  • TABLE 30 GLOBAL SPENDING ON MATERIALS CHARACTERIZATION INSTRUMENTS, THROUGH 2014 ($ BILLIONS) 101
  • FIGURE 38 GLOBAL MATERIALS CHARACTERIZATION INSTRUMENT SALES TRENDS, 2008-2014 ($ BILLIONS) 101
  • " Technology Shift Away From Compound Optical Microscopy 102
  • Future Market for Optical Microscopes 102
  • TABLE 31 PROJECTED GLOBAL SALES OF OPTICAL MICROSCOPES THROUGH 2014 ($ MILLIONS) 102
  • TABLE 32 PROJECTED GROWTH RATE OF GLOBAL MARKET FOR STEREOSCOPIC MICROSCOPES, 2008-2014 (PERCENT CAGR) 103
  • TABLE 33 PROJECTED GROWTH RATE OF GLOBAL MARKET FOR SCANNING NEAR FIELD OPTICAL MICROSCOPES, 2008-2014 (PERCENT CAGR) 104
  • FIGURE 39 GLOBAL OPTICAL MICROSCOPE MARKET SEGMENTATION, 2014 (%) 104
  • Charged Particle Microscopes 105
  • Charged Particle Microscope Market Size and Segmentation 105
  • TABLE 34 GLOBAL CHARGED PARTICLE MICROSCOPE SALES, 2008 ($ MILLIONS) 105
  • FIGURE 40 GLOBAL CHARGED PARTICLE MICROSCOPE MARKET SEGMENTS, 2008 (%) 106
  • Market Drivers 106
  • " Semiconductor Industry Investment Trends 106
  • FIGURE 41 GLOBAL MARKETS FOR SCANNING ELECTRON MICROSCOPES, 2008 (PERCENTAGES OF TOTAL SEM SALES) 107
  • TABLE 35 SEMICONDUCTOR INDUSTRY CAPITAL EQUIPMENT SPENDING PROJECTIONS THROUGH 2014 ($ BILLIONS) 108
  • FIGURE 42 PROJECTED GROWTH IN SEMICONDUCTOR CAPITAL EQUIPMENT SPENDING, 2008-2014 ($ BILLIONS) 108
  • " Technology Shifts 109
  • FIGURE 43 CHARGED PARTICLE MICROSCOPE SALES GROWTH VS. GROWTH IN MAJOR UNDERLYING MARKETS, 2003-2008 (CAGR %) 109
  • Future Market for Charged Particle Microscopes 110
  • TABLE 36 PROJECTED GLOBAL SALES OF CHARGED PARTICLE MICROSCOPES THROUGH 2014 ($ MILLIONS) 111
  • TABLE 37 PROJECTED GLOBAL GROWTH RATE OF SCANNING ELECTRON MICROSCOPE SALES TO THE LIFE AND MATERIALS SCIENCES, THROUGH 2014 ($ MILLIONS) 112
  • FIGURE 44 GLOBAL CHARGED PARTICLE MICROSCOPE MARKET SEGMENTS, 2014 (PERCENT OF TOTAL SALES) 113
  • Scanning Probe Microscopes 113
  • Scanning Probe Microscope Market Size and Segmentation 114
  • FIGURE 45 GLOBAL SPM MARKET PRODUCT SEGMENTS, 2008 (PERCENT OF TOTAL SALES) 114
  • Market Drivers 114
  • " Trends in Nanoscale Applications 115
  • " Technology Shifts 115
  • Future Market for Scanning Probe Microscopes 115
  • TABLE 38 PROJECTED GLOBAL SALES OF SCANNING PROBE MICROSCOPES, THROUGH 2014 ($ MILLIONS) 116
  • FIGURE 46 GLOBAL SCANNING PROBE MICROSCOPE MARKET SEGMENTS, 2014 (PERCENT OF TOTAL SALES) 116
  • Accessories and Supplies 117
  • Market Size and Segmentation 117
  • TABLE 39 GLOBAL SALES OF MICROSCOPE ACCESSORIES AND CONSUMABLES, 2008 117
  • FIGURE 47 GLOBAL MICROSCOPE ACCESSORIES AND SUPPLIES MARKET SEGMENTATION, 2008 (%) 118
  • Market Drivers 118
  • " Number of Microscopes in Use Worldwide 118
  • TABLE 40 NUMBER OF MICROSCOPES IN USE WORLDWIDE THROUGH 2014 (MILLION UNITS) 118
  • FIGURE 48 TRENDS IN NUMBER OF MICROSCOPES IN USE WORLDWIDE, 2008-2014 (MILLION UNITS) 119
  • Future Markets for Microscope Accessories and Supplies 119
  • TABLE 41 PROJECTED GLOBAL SALES OF MICROSCOPE ACCESSORIES AND SUPPLIES, THROUGH 2014 ($ MILLIONS) 119
  • MARKETS BY END-USER SEGMENT 120
  • Optical Microscopes 120
  • TABLE 42 GLOBAL END-USER MARKETS FOR OPTICAL MICROSCOPES, THROUGH 2014 ($ MILLIONS) 120
  • FIGURE 49 GLOBAL OPTICAL MICROSCOPE MARKET SHARES BY END-USER SEGMENT, 2008 VS. 2014 (PERCENTAGE OF SALES) 121
  • Charged Particle Microscopes 122
  • FIGURE 50 GLOBAL CHARGED PARTICLE MICROSCOPE MARKET SHARES BY END-USER SEGMENT, 2008 VS. 2014 (PERCENTAGE OF SALES) 122
  • FIGURE 50 (CONTINUED) 123
  • Scanning Probe Microscopes 123
  • All Types of Microscopes 123
  • TABLE 43 GLOBAL END-USER MARKETS FOR ALL TYPES OF MICROSCOPE*, THROUGH 2014 ($ MILLIONS) 123
  • FIGURE 51 GLOBAL MICROSCOPE MARKET SHARES BY END-USER SEGMENT, 2008 VS. 2014 (PERCENTAGE OF SALES) 124
  • GEOGRAPHICAL MARKETS 125
  • Optical Microscopes 125
  • TABLE 44 GEOGRAPHICAL MARKETS FOR OPTICAL MICROSCOPES, THROUGH 2014* ($ MILLIONS) 125
  • FIGURE 52 OPTICAL MICROSCOPE GEOGRAPHICAL MARKET SHARES, 2008 VS. 2014 (PERCENTAGE OF GLOBAL SALES) 126
  • Charged Particle Microscopes 127
  • TABLE 45 GEOGRAPHICAL MARKETS FOR CHARGED PARTICLE MICROSCOPES, THROUGH 2014* ($ MILLIONS) 127
  • FIGURE 53 CHARGED PARTICLE MICROSCOPE GEOGRAPHICAL MARKET SHARES, 2008 VS. 2014 (PERCENTAGE OF GLOBAL SALES) 128
  • Scanning Probe Microscopes 129
  • TABLE 46 GEOGRAPHICAL MARKETS FOR SCANNING PROBE MICROSCOPES, THROUGH 2014* ($ MILLIONS) 129
  • FIGURE 54 SCANNING PROBE MICROSCOPE GEOGRAPHICAL MARKET SHARES, 2008 VS. 2014 (PERCENTAGE OF GLOBAL SALES) 129
  • FIGURE 54 (CONTINUED) 130
  • All Types of Microscopes 130
  • TABLE 47 GEOGRAPHICAL MARKETS FOR ALL TYPES OF MICROSOPE, THROUGH 2014* 131
  • FIGURE 55 GEOGRAPHICAL MICROSCOPE MARKET SHARES BY END-USER SEGMENT, 2008 VS. 2014* 131
  • FIGURE 55 (CONTINUED) 132

Chapter-5: INDUSTRY STRUCTURE 5

  • MARKET SHARES 133
  • OPTICAL MICROSCOPES 133
  • FIGURE 56 OPTICAL MICROSCOPY MARKET SHARES, 2008 (PERCENT OF TOTAL SALES BY VALUE) 133
  • CHARGED PARTICLE MICROSCOPES 134
  • Electron Microscopes 134
  • FIGURE 57 ELECTRON MICROSCOPE MARKET SHARES, 2008 (PERCENT OF TOTAL SALES BY VALUE) 134
  • Focused Ion Beam Microscopes 134
  • FIGURE 58 FOCUSED ION BEAM MICROSCOPE MARKET SHARES, 2008 (PERCENT OF TOTAL SALES BY VALUE) 135
  • SCANNING PROBE MICROSCOPES 135
  • FIGURE 59 SCANNING PROBE MICROSCOPE MARKET SHARES, 2008 (PERCENT OF TOTAL SALES BY VALUE) 136
  • OWNERSHIP TRENDS 136
  • OWNERSHIP TRENDS (CONTINUED) 137

Chapter-6: COMPANY PROFILES 10

  • APPLIED MATERIALS, INC. 138
  • BRUKER OPTICS INC 138
  • BUEHLER INC. 138
  • CAMECA SA 139
  • DANISH MICRO ENGINEERING A/S 139
  • FEI COMPANY 139
  • GATAN, INC. 140
  • HITACH HIGH TECHNOLOGIES CORP. 140
  • JASCO INTERNATIONAL CO. LTD. 141
  • JEOL LTD. 141
  • LEICA MICROSYSTEMS AG 141
  • MIS INC. 142
  • NANONICS IMAGING LTD. 142
  • NIKON CORP. 142
  • NT-MDT CO 143
  • OBDUCAT-CAMSCAN LTD. 143
  • OLYMPUS CORPORATION 143
  • OMICRON NANOTECHNOLOGY GMB 144
  • PACIFIC NANOTECHNOLOGY INC. 144
  • PERKIN ELMER, INC. 144
  • PARK SYSTEMS CORP. 144
  • QUESANT INSTRUMENT CORPORATION 145
  • QUESTAR CORP. 145
  • SCHOTT NORTH AMERICA INC. 145
  • SHIMADZU CORP. 145
  • SII NANOTECHNOLOGY INC. 146
  • THERMO FISHER SCIENTIFIC CORP. 146
  • VEECO INSTRUMENTS INC. 146
  • WITEC WISSENSCHAFTLICHE INSTRUMENTE UND TECHNOLOGIE GMBH 147
  • CARL ZEISS NTS GMBH 147
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