Microscope Executive Summary  ES-1

Microscope Market Driving Forces  ES-1

Microscope Market Shares  ES-5

Carl Zeiss  ES-8

Microscope Market Forecasts  ES-9

Research And Industrial Use Of Imaging  ES-11

Japan's Leading National Institute Orders Powerful

Microscope from FEI  ES-15

Every Major Developed Country Needs To Invest

Nanotechnology Microscopes  ES-17

King Abdullah University of Science and Technology and

FEI Team for Nanoscience Facility  ES-18

Japan's Leading National Institute Orders Powerful

Microscope from FEI  ES-18

FEI's Titan Krios TEM Selected by Leading Life Science

Research Centers in Asia  ES-20

IBM Microscope 100 Million Times Finer

Resolution Than Current MRI  ES-21

 

 

1. Microscopes Market Description and Market Dynamics  1-1

1.1   Electron Microscope  1-1

1.1.1    Electron Microscope Economic Driving Forces  1-2

1.1.2    Transmission Electron Microscope (TEM) 1-3

1.1.3    TEM Uses Magnetic Lenses Guide the Electrons  1-4

1.1.4    Scanning Electron Microscope  1-5

1.1.5    TEM and SEM used for Nanotechnology  1-5

1.1.6    Nanotechnology: Using a Bottom-Up Approach

Larger Structures Are Built Or Grown Atom By

Atom Or Molecule By Molecule  1-6

1.2   Atomic Force Microscopy  1-7

1.2.1    AFM    1-7

1.2.2    Force Spectroscopy  1-8

1.3   Emerging Topics In Microscopy And Microanalysis  1-12

1.3.1    Intravital Two-Photon Microscopy  1-14

1.3.2    Understanding Of Interactions Between Organic

And Mineral Interfaces  1-15

1.3.3    Routine Application Of Imaging,

Spectroscopy And Diffraction Techniques For The

Analysis Of Individual Nanostructured Materials  1-15

1.3.4    Irradiation By Energetic Electrons  1-16

1.3.5    Focused Ion Beam (FIB) Science And Technology  1-16

1.3.6    Semiconductor Quantum Dots (QDs) 1-16

1.3.7    Advances of Electron Backscatter Diffraction  1-17

1.3.8    Development Of Nano-Materials  1-17

1.3.9    Approaches To Achieve Sub-Light Wavelength Resolution  1-18

1.3.10  Advanced Coating Stability  1-18

1.3.11  Quantitative Atom-Probe Tomography (APT) 1-19

1.3.12  Electron Microscopy Structural Issues  1-19

1.4   Microscope Frames And Accessory Modules  1-19

1.4.1    Fluorescent Or Phase Microscope Modules  1-20

1.4.2    Modern Materials, Lubricants And Machine Tools  1-21

1.5   Microscope Market Segments  1-22

1.5.1    Bio-Med Microscope Market 1-23

1.5.2    Clinical Microscope Market 1-23

1.5.3    Industrial Microscope Market 1-23

1.5.4    Electronics Market Microscopes  1-25

1.5.5    Metalurgical Microscopes  1-25

1.6   Stereomicroscopy Need To Measure On-Axis  1-26

1.6.1    Stereo Microscopes  1-26

1.7   Compound Microscopes  1-30

1.8   Microscopy Illumination Methods  1-30

1.9   Microscopy Imaging Techniques  1-31

1.10     Nanotechnology Paves The

Way For A Revolution In Materials  1-33

 

 

2. Microscope Market Shares and Market Forecasts  2-1

2.1   Microscope Market Driving Forces  2-1

2.2   Microscope Market Shares  2-5

2.2.1    Carl Zeiss  2-8

2.3   Microscope Market Forecasts  2-10

2.4   Optical Microscope and Electron Microscope

Market Segments  2-12

2.5   Electron Microscope Transmission (TEM) and

Scanning (SEM) Markets  2-22

2.5.1    Electron Microscope Transmission Electron

Microscopy (TEM) and Scanning Electron Microscope (SEM)

Market Shares  2-22

2.5.2    Electron Microscope Transmission Electron

Microscopy (TEM) and Scanning Electron Microscope (SEM)

Market Forecasts  2-25

2.5.3    Hitachi S-5500 In-lens FE-SEM    2-30

2.5.4    FEI  2-31

2.5.5    Japan's Leading National Institute Orders

Powerful Microscope from FEI  2-32

2.5.6    King Abdullah University of Science and

Technology and FEI Company Team to Create Major

Nanoscience Facility  2-32

2.5.7    Jeol Scanning Electron Microscopes  2-32

2.5.8    JEOL   2-33

2.5.9    JEOL Electron Optics  2-33

2.5.10  JEOL Analytical Electron Microscope Instruments  2-34

2.5.11  Carl Zeiss ORION™ Helium Ion Microscope  2-35

2.6   TEM and SEM Research Electron

Microscope Market Forecasts  2-37

2.6.1    Electron Microscopes Are Helping Materials Scientists  2-41

2.6.2    Electron Microscope TEM and SEM Research Markets  2-43

2.6.3    Electron Microscope TEM and SEM

Life Sciences Market Shares  2-48

2.6.4    Electron Microscope TEM and SEM

Life Sciences Market Forecasts  2-49

2.6.5    Nanoparticles for Drug Delivery  2-57

2.6.6    Electronics Electron Microscope TEM and SEM

Market Shares  2-60

2.6.7    Electron Microscope TEM and SEM Electronics

Market Forecasts  2-63

2.6.8    Electron Microscope SEM and TEM Industry Market Shares  2-68

2.6.9    Electron Microscope SEM and TEM Industry

Market Forecasts  2-69

2.7   Optical Microscopes Market Shares  2-73

2.7.1    Olympus Group  2-74

2.7.2    Nikon Sales Strength  2-75

2.7.3    Nikon Biological Microscopes Coolscope II  2-76

2.7.4    Nikon Inverted Microscopes (For Research)  Eclipse Ti-E   2-76

2.7.5    Danaher / Leica Microsystems  2-77

2.7.6    Leica M80 Stereomicroscope  2-77

2.7.7    Carl Zeiss  2-78

2.8   Optical Microscopes Market Forecasts  2-80

2.8.1    Worldwide Optical Research Microscope

Shipments, Market Shares  2-84

2.8.2    Olympus SZX Research Stereomicroscope System   2-85

2.8.3    Worldwide Optical Research Microscope

Shipments, Market Forecasts  2-86

2.8.4    Worldwide Bio-Med And Life Science Optical

Microscope Market Shares  2-88

2.8.5    Worldwide Bio-Med And Life Science Optical

Microscope Market Forecasts  2-90

2.8.1    Worldwide Optical Clinical and Surgical Microscope

Market Shares  2-92

2.8.1    Worldwide Optical Clinical and Surgical Microscope

Market Forecasts  2-94

2.8.1    Worldwide Optical Industrial and Semiconductor

Microscope Market Shares  2-95

2.8.1    Nikon Advanced Integration With Peripherals Via

Intelligent Software  2-96

2.8.2    Nikon Motorized Laser TIRF Illumination Unit 2-97

2.8.3    Nikon ECLIPSE L300D Episcopic Illumination Type  2-97

2.8.4    Worldwide Optical Industrial and Semiconductor

Microscope Market Forecasts  2-98

2.8.5    Carl Zeiss  2-99

2.8.6    Olympus Materials Research Imaging Solutions  2-100

2.9   Customized Focused Ion And Electron Beam

Columns Microscopes  2-100

2.9.1    Orsay Physics  2-100

2.10     Lensless Microscope Technology Electron Microscopy

And Optical Microscopy Markets  2-106

2.10.1  Phase Focus  2-106

2.11     Microscope Market Regional Segments  2-107

2.11.1  Carl Zeiss Revenue By Region  2-109

2.11.2  Carl Zeiss Regional Revenue Segments  2-111

2.11.3  FEI Revenue by Region  2-112

2.11.4  Agilent Revenue by Region  2-114

 

3. Microscope Product Description   3-1

3.1   Olympus  3-1

3.1.1    Olympus SZX Research Stereomicroscope System   3-1

3.1.2    Olympus Integration of Apochromatic System   3-8

3.1.3    Olympus Vertical Observation  3-11

3.1.4    Olympus Multiphoton Microscope  3-12

3.1.5    Olympus Confocal Microscope  3-14

3.1.6    Olympus Confocal Microscope Laser Monitoring Function  3-21

3.1.7    Olympus Photo Stimulation  3-22

3.1.8    Olympus Unmixing  3-23

3.1.9    Olympus Colocalization  3-23

3.1.10  Olympus Industrial Micro-Imaging Segments  3-24

3.1.11  Olympus Materials Research Imaging Solutions  3-25

3.1.12  Olympus Ceramics  3-27

3.1.13  Olympus Plastics Microscopes  3-28

3.1.14  Olympus Materials Forming  3-29

3.1.15  Olympus Semiconductor Imaging Solutions  3-29

3.1.16  Olympus  -  Bacus Laboratories  -  Virtual Microscopy  3-33

3.2   Nikon  3-35

3.2.1    Nikon ECLIPSE L300D Episcopic  3-36

3.2.2    Nikon CFI60  3-36

3.2.3    Nikon Biological Microscopes COOLSCOPE II  3-38

3.2.4    Nikon Low Magnification Model 3-40

3.2.5    Nikon ECLIPSE E200POL   3-43

3.2.6    Nikon Inverted Microscopes (For Research)  Eclipse Ti-E   3-44

3.2.7    Nikon High-Speed Motorized Control And Acquisition  3-44

3.2.8    Nikon Advanced Integration With Peripherals

Via Intelligent Software  3-46

3.2.9    Nikon Motorized Laser TIRF Illumination Unit 3-46

3.2.10  Nikon Photo Activation Illumination Unit 3-46

3.2.11  Nikon Multiport Design With A

Maximum Of Five Imaging Ports  3-47

3.2.12  Nikon Industrial Microscopes  3-48

3.2.13  Nikon ECLIPSE L300D Episcopic Illumination Type  3-48

3.2.14  Nikon Stereoscopic Microscopes  3-53

3.2.15  Nikon Semiconductor Inspection Equipment 3-56

3.2.16  Nikon Inspection Equipment 3-62

3.3   Carl Zeiss  3-63

3.3.1    Carl Zeiss Axio  3-63

3.3.2    Zeiss Stereo Microscopes 3-64

3.3.3    Zeiss SteREO Discovery.V20  3-67

3.3.4    Zeiss SteREO Discovery Final Assembly

Of The Stereomicroscope  3-73

3.3.5    Zeiss SteREO Discovery  3-74

3.3.6    Zeiss AxioVision Microscope Software  3-80

3.3.7    Carl Zeiss SteREO Discovery.V20

Provides Depth Perception  3-81

3.3.8    Carl Zeiss SteREO Discovery.V12  3-83

3.3.9    Zeiss Confocal Microscopes  3-89

3.3.10  Zeiss Confocal Systems Axio CSM 700  3-90

3.3.11  Carl Zeiss Axio CSM 700 Reliably Assesses

Surface Quality  3-93

3.3.12  Carl Zeiss Topography for LSM    3-95

3.3.13  Carl Zeiss ORION™ Helium Ion Microscope  3-98

3.4   Leica  3-99

3.4.1    Leica M80 Stereomicroscope  3-111

3.4.2    Leica M400 E Surgical Microscope  3-113

3.4.3    Detailed Description  3-115

3.4.4    Leica M80  3-121

3.4.5    Leica TCS SP5 X Supercontinuum Confocal Microscope  3-125

3.5   Unitron  3-125

3.6   Meiji Techno  3-125

3.7   Motic  3-126

3.8   American Optical 3-126

3.9   Lumenera  3-129

3.10     Diagnostic Instruments  3-129

3.11     Meiji Techno Microscopes  3-129

3.11.1  Meiji MT4000 Series Laboratory and Student

Compound Microscopes in Transmitted Light Brightfield and

Phase Contrast. 3-130

3.11.2  Meiji MT4200 Binocular & MT4300 Trinocular 3-130

3.11.3  Meiji MT5000 Series Laboratory Compound

Microscopes in Transmitted Light Brightfield and Phase Contrast 3-130

3.11.4  Meiji IM7000 Series and Meiji MT9000 Series  3-131

3.11.5  Meiji RZ Research Zoom Stereomicroscope: 3-131

3.11.6  Meiji EMZ Zoom Stereomicroscopes: 3-131

3.12     FEI Electron Microscopes SEM and TEM    3-135

3.12.1  FEI Phenom Applications  3-138

3.12.2  Metallurgical Applications Using The FEI Phenom   3-139

3.12.3  Forensic Applications of FEI Scanning Electron Microscopy  3-139

3.12.4  FEI Micron Scale Insect Anatomy  3-140

3.12.5  FEI Phenom Use for Pharmaceutical Particle Inspection  3-140

3.12.6  FEI Topography Imaging With Phenom   3-141

3.12.7  FEI Product Offerings  3-142

3.12.8  FEI SEM Transition in Imaging  3-144

3.12.9  FEI TEM Product Positioning  3-148

3.13     Hitachi 3-153

3.13.1  Hitachi S-5500 In-lens FE-SEM    3-156

3.14     Jeol Scanning Electron Microscopes  3-164

3.14.1  Jeol JXA-8500F Electron Probe Microanalyzer (EPMA) 3-166

3.14.2  JEOL Electron Microscope Semiconductor Equipment 3-167

3.15     Alicona Imaging  3-168

3.15.1  Alicona Imaging InfiniteFocus  3-170

3.15.2  Alicona Imaging InfiniteFocusRobot 3-171

3.15.3  Alicona Imaging InfiniteFocus Real 3D   3-171

3.15.4  Alicona Imaging InfiniteFocus Inline  3-171

3.15.5  Alicona Imaging EdgeMaster 3-172

3.15.6  Alicona Imaging MeX   3-172

3.16     Anderson Materials Evaluation EDS, XRF, and FTIR   3-172

3.16.1  Anderson Materials XPS Surface Analysis Technique  3-173

3.16.2  Anderson Materials XPS System Capabilities  3-176

3.16.3  Anderson Materials XPS Applications  3-177

3.16.4  Anderson Materials ESCA Surface Analysis Applications  3-177

3.16.5  Anderson Materials X-ray Photoelectron Spectroscopy  3-180

3.17     Westover Scientific Telecommunications

Fiber Optic Network Probe  3-182

3.18     AIST-NT Co  3-187

3.18.1  AIST-NT Co Products  3-187

3.19     Angstrom - Advanced  3-198

3.20     Angstrom Advanced  3-199

3.21     Agilent Technologies Atomic Force Microscopes  3-201

3.21.1  Agilent Technologies In Particle Analysis  3-202

3.21.2  Agilent Particle Analysis Target Markets  3-203

3.21.3  Agilent Inks And Pigments  3-204

3.21.4  Agilent Specialty Chemicals  3-204

3.22     Veeco  3-205

3.23     Asylum Research  3-206

3.23.1  Asylum Cypher AFM Features  3-209

3.23.2  Asylum Nanoindenting  3-211

3.23.3  Asylum Research Atomic Force Microscope (AFM) 3-233

3.23.4  Asylum Research Atomic Force Microscope

Technical Innovations  3-233

3.24     JPK Instruments  3-241

3.25     Nanosurf FlexAFM easyScan 2  3-247

3.26     Bruker AXS  3-249

3.27     Nanonics  3-250

3.27.1  Nanonics Confocal Microscope  3-250

3.27.2  Nanonics Confocal Microscope  3-251

3.27.3  Nanonics Dual Microscope  3-253

3.27.4  Nanonics Dual Microscope Combined Upright

and Inverted Systems  3-254

3.27.5  Nanonics SPM & NSOM Systems  3-257

3.27.6  Nanonics Transparent Correlation of Raman

and SPM Imaging. 3-258

3.27.7  Nanonics Parallel Imaging  3-261

3.27.8  Nanonics Raman Mapping with Z-Control 3-263

3.27.9  Nanonics Examples of the Power of Integrated Raman/AFM    3-264

3.27.10  Nanoindentation Correlated with Material Properties  3-266

3.27.11  Local Stress of MEMs Devices  3-267

3.27.12  Intermittent Contact Mode in Liquids  3-268

3.28     Nanotec Electrónica  3-269

3.28.1  Nanotec Products  3-270

3.29     Cervantes AFM System   3-271

3.30     Dulcinea Control System   3-271

3.31     Omicron Multiprobe MBE and S System For

Thin Film Deposition Analysis  3-272

3.31.1  Omicron Multiprobe MXPS Thin Film Studies

With Pulsed Laser Deposition (PLD) System   3-274

3.31.2  Omicron Multiscan LAB: 3-276

3.31.3  Omicron Customized Solution for 2.5 –

350 K STM Operation in 3D Magnetic Fields  3-276

3.32     Veeco  3-279

3.32.1  Veeco BioScope II Atomic Force Microscope –

Combining atomic force And Optical Microscopy  3-279

3.32.2  Veeco BioScope SZ Atomic Force Microscope

Designed For Life Sciences Research  3-281

3.32.3  Veeco Caliber Atomic Force Microscope AFM with

Research-Quality Results  3-282

3.32.4  Veeco Dimension 3100 Scanning Probe Microscope –

Superior research versatility  3-283

3.32.5  Veeco Dimension 5000 Scanning Probe Microscope

Large-Sample Metrology And Imaging  3-284

3.32.6  Veeco Dimension V Scanning Probe Microscope –

Superior High-Resolution Research Performance And Versatility  3-285

3.32.7  Veeco Electrochemical SPM Real-Time Electrochemical

Processes In-Situ  3-286

3.32.8  Veeco EnviroScope Atomic Force Microscope –

Combined AFM Imaging With Sample Environmental Control 3-288

3.32.9  Veeco Innova Scanning Probe Microscope Low Noise,

High Resolution AFM    3-289

3.32.10  Veeco MultiMode V Scanning Probe Microscope

High Resolution SPM    3-290

3.32.11  NanoMan VS Scanning Probe Microscope

Enabling Advanced Nanoscale Surface Manipulation  3-291

3.32.12  Veeco  Scanning Probe Microscope Force

Spectroscopy Research  3-292

3.33     Agilent 3-293

3.34     Orsay Physics S.A. 3-297

3.34.1  Orsay Physics S.A. COBRA-FIB Column  3-297

3.35     Seiko  3-299

3.35.1  Seiko SUPRA 55VP Versatile High Performance VP SEM    3-300

3.35.2  Carl Zeiss NVision 40 FIB-SEM    3-301

3.35.3  Carl Zeiss NVision DES100 1540XB CrossBeam/ 3-302

 

4. Microscope Technology  4-1

4.1   IBM Microscope 100 Million Times Finer Resolution

Than Current MRI  4-1

4.1.1    IBM Research  4-2

4.2   Technological Trends in the Microscopy Business  4-3

4.3   Industry Overview   4-6

4.3.1    Key Trends in the Laboratory Equipment Market 4-6

4.3.2    Semiconductor Industry  4-8

4.4   Surface Science Technologies  4-10

4.4.1    Surface Analyzers  4-11

 

 

5. Microscope Company Profiles  5-1

5.1   Alicona Imaging  5-1

5.2   Aligent 5-3

5.2.1    Agilent Technologies Inc. (NYSE: A) High-

Precision Atomic Force Microscopes (AFM) 5-5

5.2.2    Agilent Technologies Atomic Force Microscopes  5-10

5.2.3    Agilent Buys Nano Instruments  5-13

5.2.4    Agilent Technologies Atomic Force Microscopes

Consumables  5-14

5.2.5    Agilent Gold Mica Substrates  5-16

5.2.6    Agilent Hydrogen Flame Annealing  5-16

5.2.7    Agilent Net Revenue Fiscal Year 2008  5-17

5.2.8    Agilent Electronic and Communications Measurement 5-22

5.2.9    Agilent Bio-Analytical Measurement 5-24

5.2.10  Agilent Laboratories  5-28

5.2.11  Agilent Technologies Fourth Quarter 2008 Revenue  5-29

5.2.12  Agilent Electronic Measurement 5-31

5.2.13  Agilent Technologies Revenue  5-32

5.3   Angstrom Advanced  5-33

5.4   Asylum Research  5-35

5.5   Bausch and Lomb  5-36

5.6   Bruker  5-37

5.6.1    Bruker  Acquires S.I.S. Surface Imaging System

 In the AFM Market 5-37

5.7   Carl Zeiss  5-39

5.7.1    Carl Zeiss Regional Revenue Segments  5-42

5.7.2    Carl Zeiss Foundation Organizational Structure  5-43

5.7.3    Carl Zeiss Reorganization of Business Units  5-44

5.7.4    Carl Zeiss AxioVision Physiology Microscope System   5-44

5.7.5    Carl Zeiss Meditec  5-47

5.7.6    Carl Zeiss Revenue By Strategic Business Segment 5-48

5.7.7    Carl Zeiss Revenue By Region  5-49

5.7.8    Zeiss Outlook  5-50

5.7.9    Zeiss Clinical Diagnostics ACIS III System

Developed by Clarient 5-51

5.8   Danaher Corporation  5-52

5.8.1    Danaher Revenue For Fourth Quarter And Full Year 2008  5-52

5.8.2    Danaher Operating Segments  5-54

5.8.3    Danaher Third Quarter Revenue  5-57

5.8.4    Danaher / Leica Brand  5-57

5.8.5    Danaher / Leica Microsystems  5-59

5.8.6    Leica Microsystems’ Life Science Division  5-60

5.8.7    Leica Professional Instrumentation  5-61

5.8.8    Leica Industrial Technologies  5-62

5.8.9    Danaher Tools & Components  5-62

5.8.10  Leica Microsystems Acquires Surgipath Medical Industries, Inc. 5-62

5.8.11  Leica Microsystems’ Life Science Division  5-63

5.8.12  Danaher Leica Microsystems’ Industry Division  5-63

5.8.13  Danaher Leica Microsystems’ Biosystems Division  5-64

5.8.14  Danaher Leica Microsystems’ Surgical Division  5-65

5.8.15  Danaher / Leica MM AF Imaging Systems and

MetaMorph Software  5-66

5.9   FEI  5-67

5.9.1    FEI Acquires Intellection Holdings  5-67

5.9.2    FEI Suppliers  5-68

5.9.3    FEI Technologies And Applications  5-68

5.9.4    FEI Worldwide Presence  5-69

5.9.5    Japan's Leading National Institute Orders

Powerful Microscope from FEI  5-69

5.9.6    FEI's Titan Krios TEM Selected by Leading Life

Science Research Centers in Asia  5-71

5.9.7    King Abdullah University of Science and Technology

and FEI Company Team to Create Major Nanoscience Facility  5-73

5.9.8    FEI Revenue  5-74

5.9.9    FEI Strategic Positioning  5-80

5.9.10  FEI Life Sciences Instrument Positioning  5-88

5.9.11  FEI Three major markets – Research & Industry,

Electronics and Life Sciences Segment Information  5-90

5.9.12  FEI Electronics Segments  5-93

5.9.13  FEI Research and Industry  5-94

5.9.14  FEI Life Sciences  5-94

5.9.15  FEI Service and Components  5-94

5.9.16  FEI Electronics Market 5-95

5.9.17  FEI Research And Industry Market 5-95

5.9.18  FEI Life Sciences  5-96

5.9.19  FEI Order Cancellations  5-97

5.9.20  FEI Sales by Geographic Region  5-97

5.9.21  FEI North America  5-98

5.9.22  FEI Europe  5-99

5.9.23  FEI Asia-Pacific Region  5-99

5.9.24  FEI SEM Phenom Scope  5-99

5.9.25  FEI Fits in the Semiconductor Microscope

Equipment Supply Chain  5-101

5.9.26  FEI Leader in Tools for Nanotechnology  5-101

5.9.27  FEI Titan Electron Microscope (TEM)

Designed By Philips Design  5-102

5.10     Hitachi 5-103

5.11     Jeol 5-104

5.11.1  Jeol Electron Optics  5-104

5.11.2  Jeol Analytical Instruments  5-105

5.11.3  Jeol Semiconductor Equipment 5-106

5.11.4  Jeol Thin Film Coating Systems  5-107

5.11.5  Jeol Medical Equipment 5-108

5.12     JPK Instruments  5-117

5.12.1  JPK Instruments Business units  5-118

5.12.2  Molecular Analytics Division  5-119

5.13     Kaust 5-121

5.14     Labomed  5-122

5.15     Motic  5-122

5.15.1  Motic Contract With Carl Zeiss  5-122

5.16     Nanotec Electronica  /  Nanonics  5-124

5.17     Nanosurf  5-125

5.17.1  Nanosurf Integrated Microscopy  5-127

5.17.2  Nanosurf Technology  5-127

5.18     NIKON   5-128

5.18.1  Nikon Revenue  5-129

5.18.2  Nikon Instruments Business  5-129

5.18.3  Nikon Geographical Segments  5-131

5.18.4  Nikon Instrument Product Line  5-141

5.18.5  Nikon Stereoscopic Microscopes  5-147

5.18.6  Nikon Cameras for Microscopy  5-148

5.18.7  Nikon Bioscience Field Market

Environment and Business Trends  5-149

5.18.8  Nikon Business Strategy  5-150

5.18.9  Nikon Instruments and Biosciences Business  5-151

5.19     Olympus  5-152

5.19.1  Olympus Microscopes For Industrial Applications  5-153

5.19.2  Olympus Micro-Imaging  5-154

5.19.3  Olympus Centre Strengthens R&D In Lab Equipment 5-156

5.20     Omicron  5-157

5.20.1  Omicron High-Performance STM Operation  5-157

5.20.2  Omicron Customized Solution  5-159

5.21     Orsay Physics S.A. 5-159

5.22     Phase Focus  5-162

5.22.1  Phase Focus 'Lenless' Optical Microscope  5-162

5.22.2  Phase Focus / Fusion IP £250k Funding  5-163

5.23     Raith  5-163

5.23.1  Raith Secure Customers Investments  5-164

5.24     Seiko Instruments Inc. (SII) 5-164

5.24.1  Seiko Holdings  5-165

5.24.2  Seiko Watch Corporation  5-165

5.24.3  Seiko Clock  5-165

5.24.4  Seiko Precision  5-166

5.24.5  Seiko Instruments (SII) 5-166

5.24.6  Seiko Epson  5-166

5.25     Thermo Fisher Scientific  5-166

5.26     Veecro  5-167

5.26.1  Veeco Third Quarter and Nine Month 2008 Revenue  5-168

5.27     Westover Scientific  5-176

5.28     Selected Microscopy Vendors  5-177

5.28.1  Atomic Force Microscope Manufacturers  5-179

5.28.2  Grandeye  5-181

5.28.3  BioTek  5-181

5.28.4  Avo Photonics  5-181

 

 

 

Table ES-1  ES-3

Microscope Market Driving Forces 

Table ES-1  (Continued) ES-4

Microscope Market Driving Forces 

Table ES-2  ES-5

Technology Impact on Microscope Market Driving Forces 

Table ES-3  ES-7

Worldwide Microscope 

Shipments Market Shares, Dollars, 2008 

Figure ES-4  ES-10

Worldwide Optical and Electron Microscope Market

Forecasts, Dollars, 2009-2015 

Figure ES-5  ES-13

FEI From Wafer to Atomic Resolution 

Figure ES-6  ES-14

FEI Industry Transition in Imaging 

 

 

 

Figure 1-1  1-11

Platinum Electrode Measuring One Hundredth

Of A Nanometer Deposited On Pyramid Shaped

AFM Tip Via Focused Ion Beam (Fib) Deposition 

Table 1-2  1-12

Emerging Topics In Microscopy And Microanalysis 

Table 1-3  1-20

Commercial Microscope Modules 

Table 1-4  1-22

Microscope Market Segments 

Table 1-5  1-28

Stereo Microscope Features 

Table 1-5  (Continued) 1-29

Stereo Microscope Features 

 

 

Table 2-1  2-3

Microscope Market Driving Forces 

Table 2-1  (Continued) 2-4

Microscope Market Driving Forces 

Table 2-2  2-5

Technology Impact on Microscope Market Driving Forces 

Table 2-3  2-7

Worldwide Microscope 

Shipments Market Shares, Dollars, 2008 

Table 2-4  2-8

Worldwide Microscope 

Shipments Market Shares, Dollars, 2008 

Figure 2-5  2-11

Worldwide Optical and Electron Microscope

Market Forecasts, Dollars, 2009-2015 

Table 2-6  2-12

Worldwide Total Optical and Electron Microscope 

Market Forecasts, Dollars, 2009-2015 

Figure 2-7  2-13

Worldwide Optical and Electron Microscope

Market Segments, 2008 

Figure 2-8  2-14

Worldwide Optical and Electron Microscope Market Segments, 2015 

Table 2-9  2-15

Worldwide Optical and Electron Microscope 

Market Segments, Dollars, 2009-2015 

Figure 2-10  2-17

FEI Magellan Nanoscale Characterization

Down To The Level of Atoms 

Figure 2-11  2-19

Improvements in Visualization from SEM to TEM   

Figure 2-12  2-20

FEI Titan Nanoscale Visualization Down To The Level Of Atoms 

Table 2-13  2-21

Comparison of AFM, TEM, SEM, and Optical

Microscopy Techniques 

Table 2-14  2-23

Worldwide TEM and SEM Electron Microscope Shipments 

Market Shares, Dollars, 2008 

Table 2-15  2-24

Worldwide TEM and SEM Electron Microscope Shipments 

Market Shares, Dollars, 2008 

Table 2-16  2-25

Worldwide Electron Microscope 

Market Forecasts, Dollars, 2009-2015 

Table 2-17  2-26

Worldwide Electron Microscope 

Market Forecasts, Dollars, 2009-2015 

Figure 2-18  2-27

Worldwide TEM and SEM Electron Microscope

Shipments, Research, Bio-Med and Life Sciences,

Clinical and Surgical, Industrial, Mining and Materials,

Electronics and Semiconductor, and Ion Beam

Market Forecasts, Units and Dollars, 2009-2015 

Figure 2-19  2-29

Worldwide Research TEM and SEM Electron Microscope

Shipments Market Shares, Dollars, 2008 

Table 2-20  2-30

Worldwide Research TEM and SEM Electron Microscope

Shipments Market Shares, Dollars, 2008 

Table 2-21  2-34

JEOL Electron Microscope Products 

Table 2-22  2-35

JEOL Analytical Instrument Products 

Figure 2-23  2-36

Carl Zeiss ORION™ Helium Ion Microscope 

Figure 2-24  2-38

Worldwide Research TEM and SEM   

Electron Microscope Market Forecasts, Dollars, 2009-2015 

Figure 2-25  2-40

Nanotechnology Funding of National Programs 

Table 2-26  2-42

FEI Electron Microscope Research Positioning 

Table 2-27  2-44

Worldwide Research TEM and SEM Electron

Microscope Shipments Market Forecasts,

Units and Dollars, 2009-2015 

Table 2-28  2-45

Electron Microscope TEM and SEM Research

Segment Growth Drivers 

Table 2-29  2-48

Worldwide Bio-Med and Life Science Shipments

TEM and SEM Electron Microscope Market Shares,

Dollars, 2008 

Table 2-30  2-49

Worldwide Bio-Med and Life Science Shipments

TEM and SEM Electron Microscope Market Shares, Dollars, 2008 

Figure 2-31  2-50

Worldwide Bio-Med and Life Science TEM and SEM   

Electron Microscope Market Forecasts, Dollars, 2009-2015 

Figure 2-32  2-51

Worldwide Bio-Med and Life Science TEM and SEM   

Electron Microscope Market Forecasts, Dollars, 2009-2015 

Table 2-33  2-52

TEM and SEM Life Sciences Market Growth Factors 

Table 2-33  (Continued) 2-53

TEM and SEM Life Sciences Market Growth Factors 

Figure 2-34  2-54

Life Sciences Market Growth 

Table 2-35  2-55

FEI Solutions For Structural Biology 

Table 2-36  2-56

University and Government Lab Life Science Applications 

Figure 2-37  2-59

Nanoparticles for Drug Delivery 

Table 2-38  2-60

Nanotechnology Life Sciences Market Growth Factors 

Table 2-39  2-61

Worldwide Electronics and Semiconductor TEM and SEM   

Electron Microscope Shipments Market Shares, Dollars, 2008 

Table 2-40  2-62

Worldwide Electronics and Semiconductor TEM and SEM   

Electron Microscope Shipments Market Shares, Dollars, 2008 

Figure 2-41  2-63

Worldwide Electronics TEM and SEM   

Electron Microscope Market Forecasts, Dollars, 2009-2015 

Table 2-42  2-64

Worldwide Electronics and Semiconductor TEM and

SEM Electron Microscope Shipments 

Market Forecasts, Units and Dollars, 2009-2015 

Table 2-43  2-65

Electron Microscope Semiconductor Equipment Products 

Table 2-44  2-66

Electron Microscope TEM and SEM Electronics

Market Growth Drivers 

Table 2-45  2-67

Electron Microscope TEM and SEM Electronics Market Tactics:

Table 2-46  2-68

Worldwide Industrial Mining and Materials TEM and SEM   

Electron Microscope Shipments Market Shares, Dollars, 2008 

Table 2-47  2-69

Worldwide Industrial Mining and Materials TEM and SEM   

Electron Microscope Shipments Market Shares, Dollars, 2008 

Table 2-48  2-70

Worldwide Industrial, Mining and Materials TEM and

SEM Electron Microscope Shipments 

Market Forecasts, Units and Dollars, 2009-2015 

Table 2-49  2-71

Worldwide Industrial, Mining and Materials TEM and

SEM Electron Microscope Shipments 

Market Forecasts, Units and Dollars, 2009-2015 

Table 2-50  2-72

Thin Film Coating System Products 

Table 2-51  2-73

Worldwide Optical Microscopes Market Shares, Dollars, 2008 

Table 2-52  2-74

Worldwide Optical Microscope Shipments 

Market Shares, Dollars, 2008 

Figure 2-53  2-81

Worldwide Optical Microscope Market Forecasts,

Dollars, 2009-2015 

Figure 2-54  2-82

Worldwide Optical Microscope Market Forecasts,

Dollars, 2009-2015 

Figure 2-55  2-82

Worldwide Optical Microscope Shipments, Research,

Bio-Med and Life Sciences, Clinical and Surgical,

Industrial and Semiconductor, Market Forecasts,

Units and Dollars, 2009-2015 

Figure 2-56  2-84

Worldwide Optical Research Microscope Shipments,

Market Shares, Dollars, 2008 

Figure 2-57  2-85

Worldwide Optical Research Microscope Shipments,

Market Shares, Dollars, 2008 

Figure 2-57  2-87

Worldwide Optical Research Microscope Market

Forecasts, Dollars, 2009-2015 

Figure 2-58  2-88

Worldwide Bio-Med and Life Science Optical

Microscope Shipments, Market Shares, Dollars, 2008 

Figure 2-59  2-89

Worldwide Bio-Med and Life Science Optical

Microscope Shipments, Market Shares, Dollars, 2008 

Figure 2-60  2-91

Worldwide Bio-Med And Life Science Optical Microscope

Forecasts, Dollars, 2009-2015 

Figure 2-61  2-92

Worldwide Optical Clinical and Surgical Microscope Shipments 

Market Shares, Dollars, 2008 

Table 2-62  2-93

Worldwide Optical Clinical and Surgical Microscope Shipments 

Market Shares, Dollars, 2008 

Figure 2-61  2-94

Worldwide Optical Clinical and Surgical Microscope Shipments 

Market Forecasts, Dollars, 2009-2015 

Figure 2-62  2-95

Worldwide Optical Industrial and Semiconductor

Microscope Shipments Market Shares, Dollars, 2008 

Figure 2-63  2-96

Worldwide Optical Industrial and Semiconductor

Microscope Shipments Market Shares, Dollars, 2008 

Figure 2-64  2-98

Worldwide Optical Industrial and Semiconductor

Microscope Market Forecasts, Dollars, 2009-2015 

Table 2-65  2-101

Customized Focused Ion And Electron Beam Column

Microscope Market Competitive Factors 

Figure 2-66  2-102

Worldwide Customized Focused Ion and Electron Beam

Columns 

Microscope Shipments Market Shares, Dollars, 2008 

Table 2-67  2-103

Worldwide Customized Focused Ion and Electron Beam

Columns 

Microscope Shipments Market Shares, Dollars, 2008 

Figure 2-68  2-104

Worldwide Focused Ion Beam and Electron Beam Columns

Electron Microscope Market Forecasts, Dollars, 2009-2015 

Figure 2-69  2-105

Worldwide Focused Ion Beam and Electron Beam Columns

SEM and TEM Electron Microscope Market Forecasts,

Dollars, 2009-2015 

Table 2-70  2-108

Regional Microscope Shipment Analysis 

Market Shares, Dollars, 2008 

Table 2-71  2-109

Regional Microscope Shipment Analysis 

Market Shares, Dollars, 2008 

Figure 5-72  2-112

FEI Growth and Regional Diversity 

Table 2-73  2-113

FEI Nanotechnology Research Center Penetration 

 

Figure 3-1  3-2

Olympus SZX16 Advanced Research Microscope 

Table 3-2  3-3

Olympus SZX16 Research Microscope Benefits 

Table 3-2  (Continued) 3-4

Olympus SZX16 Research Microscope Benefits 

Table 3-3  3-5

Olympus SDF Objective Lenses Features 

Figure 3-4  3-12

Olympus Multiphoton Microscope 

Table 3-5  3-13

Olympus FV1000MPE TWIN Features 

Table 3-6  3-15

Olympus Confocal Microscope Benefits 

Table 3-7  3-16

Olympus Confocal Microscope Evolved Laser Light Stimulation 

Table 3-8  3-17

Olympus Confocal Microscope Evolved Basic Performance 

Table 3-9  3-18

Olympus Confocal Microscope Quantification 

Table 3-10  3-19

Olympus Confocal Microscope High Sensitivity 

Figure 3-11  3-20

Olympus Confocal Microscope 

Table 3-12  3-25

Olympus Industrial Micro-Imaging Segments 

Figure 3-13  3-30

Olympus Semiconductor Imaging Solutions 

Table 3-14  3-34

Olympus Virtual Microscopy Applications 

Table 3-15  3-36

Nikon CFI60 Features 

Figure 3-16  3-38

Nikon CFI60 

Figure 3-17  3-39

Nikon COOLSCOPE2 Main Screen And Controller 

Table 3-18  3-40

Nikon Low Magnification Features 

Table 3-19  3-41

Nikon Low Magnification Microscope Features 

Table 3-19  (Continued) 3-42

Nikon Low Magnification Microscope Features 

Figure 3-20  3-43

Nikon ECLIPSE E200POL  

Figure 3-21  3-47

Nikon Inverted Microscopes For Research ECLIPSE Ti-E  

Table 3-22  3-49

ECLIPSE L300D Episcopic Illumination Type 

Figure 3-23  3-50

Nikon ECLIPSE L300D Episcopic Illumination Type 

Table 3-24  3-51

Selected Nikon Industrial Microscopes and Accessories and Other 

Table 3-25  3-54

Nikon Stereoscopic Zoom Microscope SMZ1500 Features 

Figure 3-26  3-55

SMZ1500 With Epi-Fluorescence Attachment

Table 3-27  3-56

Stereoscopic Zoom Microscope Products 

Table 3-28  3-57

Nikon Wafer Edge Bevel Inspection System

WES-3000 Major Features 

Figure 3-29  3-59

Nikon Wafer Edge Bevel Inspection System WES-3000 

Table 3-30  3-60

Nikon Wafer Edge Bevel Inspection System

Applications and Functions 

Table 3-31  3-61

Nikon Wafer Edge Bevel Inspection System Products 

Table 3-32  3-62

Nikon Inspection Equipment

Figure 3-33  3-64

Zeiss Axio 

Figure 3-34  3-65

Zeiss Stereo Microscope

Figure 3-35  3-66

Zeiss SteREO Lumar 

Table 3-36  3-67

Zeiss SteREO Discovery.V20 

Table 3-37  3-69

Zeiss SteREO Discovery.V20 Features 

Table 3-38  3-72

Zeiss SteREO Discovery.V20 Microscopic Sharper

Images Benefits 

Table 3-39  3-73

Zeiss SteREO Discovery Stereomicroscope

Final Assembly Process 

Figure 3-40  3-76

Zeiss Final Assembly Of The Stereomicroscope 

Figure 3-41  3-77

Zeiss Benefits of Sharper Image From Computer Based Alignment

Figure 3-42  3-82

Carl Zeiss SteREO Discovery.V20 Image Quality 

Table 3-43  3-84

Carl Zeiss Stereomicroscopy Benefits 

Table 3-44  3-85

Carl Zeiss SteREO Discovery.V12 Stereomicroscopy Applications 

Figure 3-45  3-87

Axio Observer 

Table 3-46  3-88

Zeiss Live Cell Imaging under Physiological Conditions 

Table 3-47  3-89

Zeiss Imaging 

Figure 3-48  3-90

Zeiss Confocal Microscopes Support Fluorescence

Correlation Spectroscopy To Visualize Dynamics At

The Molecular Level

Figure 3-49  3-91

Carl Zeiss Axio CSM 700 

Figure 3-50  3-94

Carl Zeiss LSM 700 Confocal Laser Scanning Microscope

3D Topography & Fluorescence Measurements 

Figure 3-51  3-95

Zeiss High-End Confocal Microscope 

Figure 3-52  3-96

Carl Zeiss LSM 5 Macros 

Figure 3-53  3-97

Carl Zeiss AxioVision Physiology Microscope System  

Figure 3-54  3-98

Carl Zeiss ORION™ Helium Ion Microscope 

Table 3-55  3-100

Leica Microscope Product Positioning 

Figure 3-56  3-112

Leica M80 stereomicroscope 

Table 3-57  3-113

Leica M400 E Surgical Microscope Key Features 

Figure 3-58  3-116

Leica M125 Trinocular Zoom Stereomicroscope

with Ergonomic Tilting 

Figure 3-59  3-117

Leica Transmitted Light Darkfield Example 

Table 3-60  3-118

Leica Microsystems GmbH Wetzlar, Germany 

Table 3-61  3-119

Leica Optical Microscope Product Set

Figure 3-62  3-122

Leica M205 A Stereomicroscope 

Table 3-63  3-123

Leica M205 A Key Features 

Table 3-64  3-127

American Optical Cycloptic Stereomicroscope 

Figure 3-65  3-128

American Optical Cycloptic Microscope 

Table 3-66  3-132

Meiji's EMZ Stereomicroscope Models 

Figure 3-67  3-133

Meiji Microscopes 

Table 3-68  3-134

Meiji EMZ13TR Trinocular Zoom Stereo 

Table 3-69  3-135

FEI's Phenom™ Desktop SEM Key Specifications 

Figure 3-70  3-136

FEI Scanning Microscope 

Table 3-71  3-137

FEI Phenom Desktop SEM Modules 

Figure 3-72  3-142

FEI Broad Product Positioning 

Figure 3-73  3-143

FEI Throughput Solution 

Figure 3-74  3-144

Microscope Industry Transition in Imaging 

Figure 3-75  3-145

FEI SEM Magellan Extreme High Resolution 

Figure 3-76  3-146

FEI Magellan SEM Semi Process Development Application 

Figure 3-77  3-147

FEI Magellan Nanoscale Characterization

Down To The Level Of Atoms 

Figure 3-78  3-148

FEI Titan Nanoscale Visualization Down To The Level Of Atoms 

Figure 3-79  3-149

FEI TEM Titan For Biology 

Figure 3-80  3-150

FEI Solutions for Cellular Biology:  3D Tomography Software 

Figure 3-81  3-151

FEI Emerging Solutions for Biology 

Figure 3-82  3-152

FEI Solutions for Nanoparticles 

Table 3-83  3-153

Hitachi Electron Microscopes 

Figure 3-84  3-155

Hitachi H-9500 300kV TEM   

Table 3-85  3-156

Hitachi S-5500 In-lens FE-SEM Features 

Table 3-86  3-157

Hitachi S-5500 In-lens FE-SEM Product Number:S-5500 Features 

Figure 3-87  3-158

Hitachi S-5500 In-lens FE-SEM   

Figure 3-88  3-159

Hitachi TEM   

Table 3-89  3-161

Hitachi FIB + SEM TM-1000 Tabletop Microscope Benefits 

Table 3-90  3-162

Hitachi TEM System Specifications 

Figure 3-91  3-165

Jeol Scanning Electron Microscope 

Table 3-92  3-166

Jeol JXA-8500FThe Electron Microscope Benefits 

Table 3-93  3-167

Jeol Electron Microscope Semiconductor Products 

Figure 3-94  3-170

Alicona Imaging InfiniteFocus Robot

Table 3-95  3-173

Anderson Materials XPS Surface Analysis Technique

Table 3-96  3-175

Anderson Materials ESCA Samples and Materials 

Figure 3-97  3-183

Westover Scientific Telecommunications Fiber Optic

Network Probe Microscope  1

Figure 3-98  3-184

Westover Scientific FiberChek2 Probe 

Figure 3-99  3-186

Westover Scientific Fiber Probes 

Table 3-100  3-187

AIST-NT Co Products 

Figure 3-101  3-189

AIST-NT Images 

Figure 3-102  3-190

AIST-NT Piezo Response Imaging 

Figure 3-103  3-191

AIST-NT Topography image of PZT  

Figure 3-104  3-192

AIST-NT Images Piezo response image (normal force).

Left - amplitude. Right - phase.

Figure 3-105  3-193

AIST-NT Polymer Images 

Figure 3-106  3-194

AIST-NT Images 

Figure 3-107  3-195

AIST-NT Images Nanolithography 

Figure 3-108  3-196

AIST-NT Images Diamond Materials 

Figure 3-109  3-197

AIST-NT MaterialsImages Kelvin Probe Microscopy image 

Figure 3-110  3-198

Angstrom Advanced Atomic Force

Microscope and Scanning Probe Microscope 

Figure 3-111  3-200

Angstrom Advanced Ellipsometer 

Table 3-112  3-201

Agilent Atomic Force Microscopes industry segments 

Table 3-113  3-202

Agilent Atomic Force Microscopes Applications 

Figure 3-114  3-205

Veeco AFMs for Research 

Figure 3-115  3-206

Veeco AFMs 

Figure 3-116  3-208

Asylum’s MFP-3D AFM   

Table 3-117  3-209

Asylum Cypher AFM Features 

Figure 3-118  3-211

Asylum Research Closed loop STM Showing

Graphite Atoms, 6nm Scan 

Figure 3-119  3-212

Asylum Research Automated Laser Alignment

Figure 3-120  3-214

Asylum Research Loop Image Of Domains Of

Surfactant Hemi-Micelles Surrounding A Defect On

Graphite, 200nm Scan 

Figure 3-121  3-215

Asylum Research.  Closed Loop Image

Of Extracellular Face Of Bacteriorhodopsin In Buffer 

Table 3-122  3-216

Asylum Research Modules 

Table 3-123  3-223

Asylum Types of Microscopy 

Table 3-124  3-224

Asylum Cypher AFM   

Table 3-125  3-226

Asylum Specifications 

Table 3-126  3-227

Asylum Scanner Modules 

Table 3-127  3-229

Asylum Standard View Module Specifications 

Table 3-128  3-234

Asylum Research Atomic Force Microscope

Technical Innovation 

Figure 3-129  3-235

Asylum Research Atomic Force Microscope 

Figure 3-130  3-236

Asylum Research Atomic Force Microscope MFP-3D Head 

Figure 3-131  3-237

Asylum Research Atomic Force Microscope

Nano-Positioning System  

Figure 3-132  3-238

Asylum Research Atomic Force Microscope

MFP-3D XY Scanner 

Figure 3-133  3-239

Asylum Research Atomic Force Microscope MFP-3D XY  

Figure 3-134  3-240

Asylm Image Of A Hard Disk, 20µm scan Science Applications 

Figure 3-135  3-241

Lithography Nanografting of thiols  on a Au(111) surface. 

1.5µm Scan 

Table 3-136  3-242

JPK Instruments Solutions 

Table 3-137  3-244

JPK Instruments Applications 

Table 3-138  3-245

JPK Instruments Major AFM Modes 

Figure 2-139  3-247

Nanosurf easyScan 2Product Lines 

Figure 3-140  3-247

Nanosurf Mobile S Provides Portable, All-in-One AFM System  

Figure 3-141  3-248

Nanosurf Nanite 

Table 3-142  3-249

Nanosurf Nanite Features 

Figure 3-143  3-249

Bruker AXS 

Figure 3-144  3-251

Nanonics Confocal Microscope 

Table 3-145  3-251

Nanonics Confocal Microscope Features 

Table 3-146  3-252

Nanonics Dual (upright/inverted) Microscope 

Table 3-147  3-254

Nanonics Dual Microscope 

Figure 3-148  3-255

Nanonics Dual Microscope Combined Upright and Inverted Systems 

Figure 3-149  3-256

Nanonics Dual Microscope Combined Upright and Inverted Systems 

Figure 3-150  3-258

Nanonics Systems Combining AFM and Raman 

Figure 3-151  3-259

Nanonics AFM without Optical Obstruction 

Figure 3-152  3-261

Nanonics Parallel Imaging of a Silicon Semiconductor 

Table 3-153  3-265

Nanonics Difference Between Raman Mapping With And

Without Z-Control Vibration Mode of Diamond at 1334cm-1 

Figure 3-154  3-268

Raman Shift as a Function of Local Stress Location 

Figure 3-155  3-273

Omicron Multiprobe MXPS System For Thin Film Studies 

Figure 3-156  3-275

Omicron Multiscan LAB Combined With a

Multiprobe MXPS System  

Figure 3-157  3-277

Omicron Customized Solution for 2.5 –

350 K STM Operation in 3D Magnetic Fields 

Figure 3-158  3-278

Omicron Customized Microscope 

Table 3-159  3-279

Veeco BioScope II Atomic Force Microscope Product Description 

Table 3-160  3-281

Veeco BioScope SZ Atomic Force Microscope Product Features:

Table 3-161  3-282

Veeco Caliber Atomic Force Microscope Product Features:

Table 3-162  3-283

Veeco Dimension 3100 Scanning Probe Microscope Product Features:

Table 3-163  3-284

Veeco Dimension 5000 Scanning Probe Microscope

Product Features:

Table 3-164  3-285

Veeco Dimension V Scanning Probe Microscope Product Features:

Table 3-165  3-286

Veeco Electrochemical SPM Product Features:

Table 3-166  3-288

Veeco EnviroScope Atomic Force Microscope

Product Features & Benefits:

Table 3-167  3-289

Veeco Innova Scanning Probe Microscope Product Features:

Table 3-168  3-290

Veeco MultiMode V Scanning Probe Microscope Product Features:

Table 3-169  3-291

NanoMan VS Scanning Probe Microscope Product Features:

Table 3-170  3-292

Veeco  Scanning Probe Microscope Product Features & Benefits:

Figure 3-171  3-294

Agilent 5500 AFM (N9410S)

Figure 3-172  3-295

Agilent 5500 AFM Imaging Modes 

Figure 3-173  3-296

Agilent Photodetector Atomic Visualization 

Figure 3-174  3-297

Agilent Region Where The Tip Approaches The Surface 

Figure 3-175  3-298

Orsay Physics S.A. COBRA-FIB Column 

Table 3-176  3-299

Seiko ULTRA 55 Transmission Electron Microscope Features 

Figure 3-177  3-301

Zeiss NVision 40 FIB-SEM NVision 40 FIB-SEM Cross

Beam System  

Table 3-178  3-302

Carl Zeiss NVision 40 FIB-SEM Features 

 

Table 4-1  4-4

Computerization Of Microscopic Manufacturing Procedure Benefits 

 

Table 5-1  5-2

Alicona Microscope Applications Research And Development

Table 5-2  5-4

Agilent Electronic And Bio-Analytical Measurement Positioning 

Table 5-3  5-6

Agilent Nanotechnology Microscope Instruments 

Table 5-3  (Continued) 5-7

Agilent Nanotechnology Microscope Instruments 

Table 5-4  5-8

Agilent Nanotechnology Microscope Instruments

Agilent Applications 

Table 5-4  (Continued) 5-9

Agilent Nanotechnology Microscope Instruments

Agilent Applications 

Table 5-4  (Continued) 5-10

Agilent Nanotechnology Microscope Instruments

Agilent Applications 

Table 5-5  5-11

Agilent Imagining Modes 

Table 5-6  5-14

Agilent Technologies Atomic Force Microscopes Consumables 

Figure 5-7  5-17

Agilent Revenue by Market Segment Q4 2008 

Figure 5-8  5-18

Agilent Revenue by Market Segment FY 2008 

Figure 5-9  5-19

Agilent Revenue by Geographical Region Q4 2008 

Figure 5-10  5-20

Agilent Revenue by Geographical Region FY 2008 

Table 5-11  5-22

Agilent Networks Communications Measurement Types 

Table 5-12  5-23

Agilent General Purpose Test Products 

Table 5-13  5-24

Agilent Communications Technology Addressed

with Test Equipment

Table 5-14  5-25

Agilent Bio-Analytical Measurement Business

Application-Focused Solutions 

Table 5-15  5-26

Agilent Chemical and Segment Analysis Market Focus 

Table 5-16  5-27

Agilent Key Product Categories For The

Bio-Analytical Measurements 

Table 5-17  5-42

Markets In Which Carl Zeiss Participates 

Figure 5-18  5-45

Carl Zeiss AxioVision Physiology Microscope System  

Figure 5-19  5-58

Leica Microsystems Latest Products 

Table 5-20  5-61

Life Science Division Products 

Table 5-21  5-63

Danaher Leica Microsystems’ Life Science Division Products 

Table 5-22  5-64

Danaher Leica Microsystems’ Industry Division Products 

Table 5-23  5-65

Danaher Leica Microsystems’ Biosystems Division Products 

Table 5-24  5-65

Danaher Leica Microsystems’ Surgical Division Products 

Figure 5-25  5-76

FEI Growth and Regional Diversity 

Table 5-26  5-77

FEI Overall Revenue Levels, Electronics vs.  Other Levels 

Table 5-27  5-78

FEI Nanotechnology Research Center Penetration 

Figure 5-28  5-79

FEI Life Sciences Instrument Landscape 

Table 5-29  5-80

FEI Strategic Positioning 

Table 5-30  5-81

FEI Q3 2008 Summary Results 

Table 5-31  5-82

FEI Broad Product Line That Creates And Measures Nanostructures 

Figure 5-32  5-83

FEI Product Track 

Table 5-33  5-84

FEI Titan –World’s Most Powerful Electron Microscope Features 

Table 5-34  5-85

FEI Imago Scientific Instruments Collaboration 

Figure 5-35  5-86

FEI Industry Transition in Imaging 

Figure 5-36  5-87

FEI From Wafer to Atomic Resolution 

Figure 5-37  5-88

FEI Life Sciences Instrument Landscape 

Figure 5-38  5-89

FEI Role in Life Sciences 

Figure 5-39  5-90

FEI Titan Krios and Titan Global Life Sciences Regional Activity 

Figure 5-40  5-92

FEI Segment Analysis 

Table 5-41  5-105

Jeol Electron Optic Products 

Table 5-42  5-106

Jeol Analytical Instruments Products 

Table 5-43  5-107

Jeol Semiconductor Equipment Products 

Table 5-44  5-108

Jeol Thin Film Coating System Products 

Table 5-45  5-109

Jeol Medical Equipment Products 

Table 5-46  5-113

Jeol Priority Fields Of The Basic Plan For Scientific Technologies 

Table 5-47  5-115

Selected Jeol Microscope Products 

Table 5-48  5-123

Motic Products 

Figure 5-49  5-132

Nikon Segment and Regional Revenue Analysis 

Source:  Nikon.

Figure 5-50  5-133

Nikon Imaging Segment Revenue Analysis 

Figure 5-51  5-134

Nikon Imaging, Precision Equipment, and

Instruments Segment Revenue Analysis 

Table 5-52  5-135

Nikon Imaging, Precision Equipment, and

Instruments Segment Revenue Analysis 

Figure 5-53  5-136

Nikon Regional Segment Revenue Analysis 

Table 5-54  5-137

Nikon Regional Segment Revenue Analysis 

Figure 5-55  5-138

Nikon Financial Results by Quarter 

Table 5-56  5-139

Nikon Financial Results by Quarter 

Table 5-57  5-140

Nikon Consolidated Financial Results 

Table 5-58  5-141

Nikon Instrument Product Line 

Table 5-59  5-143

Nikon Biological Microscopes 

Table 5-60  5-145

Nikon Industrial Microscopes 

Table 5-61  5-147

Nikon Stereoscopic Microscope Products 

Table 5-62  5-148

Nikon Cameras for Microscopy 

Table 5-63  5-149

Nikon Microscopic Image Recording Equipment

Figure 5-64  5-150

Nikon Product Development Strategy 

Table 5-65  5-152

Nikon Wafer Edge Chips And Damage Microscopes Features 

Figure 5-66  5-155

Olympus Microscopes 

Table 5-67  5-160

Orsay Physics S.A. Customers 

Table 5-67  (Continued) 5-161

Orsay Physics S.A. Customers 

Table 5-68  5-170

Veeco Instruments 

Table 5- 69  5-177

Selected Microscopy Vendors 

Table 5-70  5-180

Selected Atomic Force Microscope Manufacturers