Verfügbarkeit: Comparison and investigation of various topography sensors using a multisensor measuring system

Comparison and investigation of various topography sensors using a multisensor measuring system:

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Bibliographische Detailangaben
1. Verfasser:	Hagemeier, Sebastian (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Kassel, Hess Kassel University Press 2022
Schlagworte:	Optischer Sensor comparative measurements confocal microscope high-speed laser interferometer coherence scanning interferometer Multisensor Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	ix, 251 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm
ISBN:	9783737610698 373761069X

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adam_text	CONTENTS VII CONTENTS 1 INTRODUCTION 1 2 OPTICAL FUNDAMENTALS 5 2.1 INTERFERENCE .......................................................................................................... 5 2.2 COHERENCE ............................................................................................................. 9 2.2.1 TEMPORAL COHERENCE ................................................................................. 9 2.2.2 SPATIAL COHERENCE .................................................................................... 14 2.3 LIGHT MICROSCOPY ................................................................................................. 16 2.3.1 WORKING PRINCIPLE OF A MICROSCOPE ........................................................ 16 2.3.2 ILLUMINATION ............................................................................................. 19 2.3.3 RESOLUTION LIMIT IN OPTICAL IMAGING ACCORDING TO ABBE .......................... 22 2.3.4 RESOLUTION LIMITS FOR COHERENT AND INCOHERENT IMAGING ...................... 24 3 MULTISENSOR MEASURING SYSTEM 31 3.1 MULTISENSOR SETUP ................................................................................................ 32 3.2 VIBRATION COMPENSATION ................................................................................... 34 3.3 VIBRATIONS CAUSED BY LATERAL SCAN AXES ........................................................... 35 4 STYLUS INSTRUMENTS 37 4.1 TACTILE STYLUS INSTRUMENT .................................................................................... 37 4.1.1 WORKING PRINCIPLE ................................................................................... 37 4.1.2 DEVIATIONS CAUSED BY THE STYLUS TIP ..................................................... 39 4.1.3 MEASURING SETUP USED IN THE MULTISENSOR MEASURING SYSTEM ............. 40 4.2 ATOMIC FORCE MICROSCOPE .................................................................................... 41 4.2.1 WORKING PRINCIPLE ................................................................................... 41 4.2.2 MEASUREMENT DEVIATIONS OF AN AFM ...................................................... 44 4.2.3 AFM SETUP USED IN THE MULTISENSOR MEASURING SYSTEM ...................... 45 5 COHERENCE SCANNING MIRAU INTERFEROMETER 47 5.1 SIGNAL FORMATION IN A CSI ......................................................................... 51 5.2 SIGNAL CHANGES BY DIFFERENT SURFACE MATERIALS .................................................. 58 5.3 INFLUENCE OF THE REFERENCE MIRROR IN A MIRAU SETUP ......................................... 60 5.4 LATERAL RESOLUTION ............................................................................................... 63 5.5 SIGNAL PROCESSING ............................................................................................... 67 5.5.1 ENVELOPE ANALYSIS .................................................................................... 67 5.5.2 PHASE ANALYSIS .......................................................................................... 71 5.5.3 PHASE SHIFTING INTERFEROMETRY .............................................................. 73 VIII CONTENTS 5.6 INTERFEROMETER SETUP .......................................................................................... 74 5.6.1 MEASURING PROCESSES ............................................................................... 75 5.6.2 STROBOSCOPIC ILLUMINATION ..................................................................... 77 5.6.3 PRACTICAL REALIZATION ............................................................................... 78 6 CONFOCAL MICROSCOPY 81 6.1 WORKING PRINCIPLE ............................................................................................... 84 6.2 IMAGE FORMATION ................................................................................................... 87 6.3 LATERAL RESOLUTION ................................................................................................ 90 6.4 FULL-FIELD APPLICATION ......................................................................................... 92 6.5 INSTRUMENTAL SETUP ............................................................................................ 95 6.6 SIGNAL ANALYSIS ...................................................................................................... 98 6.6.1 CENTROID METHOD ..................................................................................... 99 6.6.2 FITTING METHOD .......................................................................................... 100 6.6.3 REFERENCE SURFACE ....................................................................................... 103 7 HIGH-SPEED INTERFEROMETRIC POINT SENSOR 105 7.1 BASIC PRINCIPLE ........................................................................................................ ILL 7.2 SIGNAL ANALYSIS ........................................................................................................ 113 7.2.1 PHASE RETRIEVAL ALGORITHM ........................................................................... 113 7.2.2 EXTENDED UNAMBIGUOUS RANGE .................................................................. 115 7.3 LASER INTERFEROMETRIC PROFILOMETER ...................................................................... 117 7.3.1 SENSOR SETUPS .............................................................................................. 117 7.3.2 MODULATION OF THE OPD BY AN OSCILLATING REFERENCE MIRROR ................... 119 7.3.3 ILLUMINATION UNIT ....................................................................................... 121 7.3.4 SIGNAL ACQUISITION AND PROCESSING ............................................................ 123 7.3.5 DETECTION OF THE LATERAL POSITION ............................................................... 127 7.3.6 REAL TIME FPGA SIGNAL PROCESSING ......................................................... 129 7.3.7 SENSOR BEAM CHARACTERIZATION .................................................................. 130 7.4 FURTHER APPLICATIONS OF THE LASER INTERFEROMETRIC SENSOR ................................. 134 7.4.1 LASER INTERFEROMETRIC DISTANCE SENSOR FOR LENGTHS MEASUREMENTS ... 134 7.4.2 CONCEPT OF A HIGH-SPEED SENSOR FOR MEASURING CHANGED LAYER THICK NESSES ......................................................................................................... 136 7.5 DISTORTIONS ............................................................................................................... 139 7.5.1 WAVELENGTH DRIFT ....................................................................................... 139 7.5.2 INTERFERENCE RESULTING BY MULTIPLE REFLECTIONS ........................................ 140 7.5.3 DEVIATIONS RESULTING BY DATA SAMPLING ..................................................... 142 7.5.4 INFLUENCES OF SPECKLE ................................................................................ 143 8 COMPARISON MEASUREMENTS 145 8.1 REPEATABILITY ......................................................................................................... 145 8.1.1 FULL-FIELD TOPOGRAPHY SENSORS ................................................................... 146 8.1.2 POINT-WISE MEASURING TOPOGRAPHY SENSORS ............................................... 152 8.2 GROOVE DEPTH STANDARD .......................................................................................... 155 CONTENTS IX 8.3 CHIRP STRUCTURE ...................................................................................................... 161 8.3.1 COARSE CHIRP ................................................................................................ 161 8.3.2 FINE CHIRP MEASURED BY AFM AND TACTILE STYLUS INSTRUMENT ............. 165 8.3.3 FINE CHIRP MEASURED BY MIRAU BASED CSI ............................................... 167 8.3.4 FINE CHIRP MEASURED BY SCM ............................................................... 169 8.3.5 FINE CHIRP MEASURED BY ICDS AND IPS .................................................. 170 8.4 RECTANGULAR GRATING ................................................................................................ 172 8.5 SINUSOIDAL SURFACE STRUCTURES ................................................................................ 179 8.6 ROUGHNESS STANDARDS ............................................................................................. 187 8.6.1 SUPERFINE ROUGHNESS STANDARD ................................................................. 189 8.6.2 FINE ROUGHNESS STANDARD .......................................................................... 191 8.6.3 MIDDLE ROUGHNESS STANDARD ....................................................................... 193 8.6.4 COARSE ROUGHNESS STANDARD ....................................................................... 195 8.7 SUMMARY ............................................................................................................... 197 9 CONCLUSION & OUTLOOK 199 BIBLIOGRAPHY 203 ABBREVATIONS 241 SYMBOLS 247
adam_txt	CONTENTS VII CONTENTS 1 INTRODUCTION 1 2 OPTICAL FUNDAMENTALS 5 2.1 INTERFERENCE . 5 2.2 COHERENCE . 9 2.2.1 TEMPORAL COHERENCE . 9 2.2.2 SPATIAL COHERENCE . 14 2.3 LIGHT MICROSCOPY . 16 2.3.1 WORKING PRINCIPLE OF A MICROSCOPE . 16 2.3.2 ILLUMINATION . 19 2.3.3 RESOLUTION LIMIT IN OPTICAL IMAGING ACCORDING TO ABBE . 22 2.3.4 RESOLUTION LIMITS FOR COHERENT AND INCOHERENT IMAGING . 24 3 MULTISENSOR MEASURING SYSTEM 31 3.1 MULTISENSOR SETUP . 32 3.2 VIBRATION COMPENSATION . 34 3.3 VIBRATIONS CAUSED BY LATERAL SCAN AXES . 35 4 STYLUS INSTRUMENTS 37 4.1 TACTILE STYLUS INSTRUMENT . 37 4.1.1 WORKING PRINCIPLE . 37 4.1.2 DEVIATIONS CAUSED BY THE STYLUS TIP . 39 4.1.3 MEASURING SETUP USED IN THE MULTISENSOR MEASURING SYSTEM . 40 4.2 ATOMIC FORCE MICROSCOPE . 41 4.2.1 WORKING PRINCIPLE . 41 4.2.2 MEASUREMENT DEVIATIONS OF AN AFM . 44 4.2.3 AFM SETUP USED IN THE MULTISENSOR MEASURING SYSTEM . 45 5 COHERENCE SCANNING MIRAU INTERFEROMETER 47 5.1 SIGNAL FORMATION IN A CSI . 51 5.2 SIGNAL CHANGES BY DIFFERENT SURFACE MATERIALS . 58 5.3 INFLUENCE OF THE REFERENCE MIRROR IN A MIRAU SETUP . 60 5.4 LATERAL RESOLUTION . 63 5.5 SIGNAL PROCESSING . 67 5.5.1 ENVELOPE ANALYSIS . 67 5.5.2 PHASE ANALYSIS . 71 5.5.3 PHASE SHIFTING INTERFEROMETRY . 73 VIII CONTENTS 5.6 INTERFEROMETER SETUP . 74 5.6.1 MEASURING PROCESSES . 75 5.6.2 STROBOSCOPIC ILLUMINATION . 77 5.6.3 PRACTICAL REALIZATION . 78 6 CONFOCAL MICROSCOPY 81 6.1 WORKING PRINCIPLE . 84 6.2 IMAGE FORMATION . 87 6.3 LATERAL RESOLUTION . 90 6.4 FULL-FIELD APPLICATION . 92 6.5 INSTRUMENTAL SETUP . 95 6.6 SIGNAL ANALYSIS . 98 6.6.1 CENTROID METHOD . 99 6.6.2 FITTING METHOD . 100 6.6.3 REFERENCE SURFACE . 103 7 HIGH-SPEED INTERFEROMETRIC POINT SENSOR 105 7.1 BASIC PRINCIPLE . ILL 7.2 SIGNAL ANALYSIS . 113 7.2.1 PHASE RETRIEVAL ALGORITHM . 113 7.2.2 EXTENDED UNAMBIGUOUS RANGE . 115 7.3 LASER INTERFEROMETRIC PROFILOMETER . 117 7.3.1 SENSOR SETUPS . 117 7.3.2 MODULATION OF THE OPD BY AN OSCILLATING REFERENCE MIRROR . 119 7.3.3 ILLUMINATION UNIT . 121 7.3.4 SIGNAL ACQUISITION AND PROCESSING . 123 7.3.5 DETECTION OF THE LATERAL POSITION . 127 7.3.6 REAL TIME FPGA SIGNAL PROCESSING . 129 7.3.7 SENSOR BEAM CHARACTERIZATION . 130 7.4 FURTHER APPLICATIONS OF THE LASER INTERFEROMETRIC SENSOR . 134 7.4.1 LASER INTERFEROMETRIC DISTANCE SENSOR FOR LENGTHS MEASUREMENTS . 134 7.4.2 CONCEPT OF A HIGH-SPEED SENSOR FOR MEASURING CHANGED LAYER THICK NESSES . 136 7.5 DISTORTIONS . 139 7.5.1 WAVELENGTH DRIFT . 139 7.5.2 INTERFERENCE RESULTING BY MULTIPLE REFLECTIONS . 140 7.5.3 DEVIATIONS RESULTING BY DATA SAMPLING . 142 7.5.4 INFLUENCES OF SPECKLE . 143 8 COMPARISON MEASUREMENTS 145 8.1 REPEATABILITY . 145 8.1.1 FULL-FIELD TOPOGRAPHY SENSORS . 146 8.1.2 POINT-WISE MEASURING TOPOGRAPHY SENSORS . 152 8.2 GROOVE DEPTH STANDARD . 155 CONTENTS IX 8.3 CHIRP STRUCTURE . 161 8.3.1 COARSE CHIRP . 161 8.3.2 FINE CHIRP MEASURED BY AFM AND TACTILE STYLUS INSTRUMENT . 165 8.3.3 FINE CHIRP MEASURED BY MIRAU BASED CSI . 167 8.3.4 FINE CHIRP MEASURED BY SCM . 169 8.3.5 FINE CHIRP MEASURED BY ICDS AND IPS . 170 8.4 RECTANGULAR GRATING . 172 8.5 SINUSOIDAL SURFACE STRUCTURES . 179 8.6 ROUGHNESS STANDARDS . 187 8.6.1 SUPERFINE ROUGHNESS STANDARD . 189 8.6.2 FINE ROUGHNESS STANDARD . 191 8.6.3 MIDDLE ROUGHNESS STANDARD . 193 8.6.4 COARSE ROUGHNESS STANDARD . 195 8.7 SUMMARY . 197 9 CONCLUSION & OUTLOOK 199 BIBLIOGRAPHY 203 ABBREVATIONS 241 SYMBOLS 247
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spelling	Hagemeier, Sebastian Verfasser (DE-588)1273605810 aut Comparison and investigation of various topography sensors using a multisensor measuring system Sebastian Hagemeier Kassel, Hess Kassel University Press 2022 ix, 251 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm txt rdacontent n rdamedia nc rdacarrier Optischer Sensor (DE-588)4075677-4 gnd rswk-swf comparative measurements confocal microscope high-speed laser interferometer coherence scanning interferometer Multisensor (DE-588)4113937-9 Hochschulschrift gnd-content Optischer Sensor (DE-588)4075677-4 s DE-604 kassel university press (DE-588)1066127425 pbl DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033877681&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20220915 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Hagemeier, Sebastian Comparison and investigation of various topography sensors using a multisensor measuring system Optischer Sensor (DE-588)4075677-4 gnd
subject_GND	(DE-588)4075677-4 (DE-588)4113937-9
title	Comparison and investigation of various topography sensors using a multisensor measuring system
title_auth	Comparison and investigation of various topography sensors using a multisensor measuring system
title_exact_search	Comparison and investigation of various topography sensors using a multisensor measuring system
title_exact_search_txtP	Comparison and investigation of various topography sensors using a multisensor measuring system
title_full	Comparison and investigation of various topography sensors using a multisensor measuring system Sebastian Hagemeier
title_fullStr	Comparison and investigation of various topography sensors using a multisensor measuring system Sebastian Hagemeier
title_full_unstemmed	Comparison and investigation of various topography sensors using a multisensor measuring system Sebastian Hagemeier
title_short	Comparison and investigation of various topography sensors using a multisensor measuring system
title_sort	comparison and investigation of various topography sensors using a multisensor measuring system
topic	Optischer Sensor (DE-588)4075677-4 gnd
topic_facet	Optischer Sensor Hochschulschrift
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