Verfügbarkeit: Near-field nano/atom optics and technology

Near-field nano/atom optics and technology:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Tokyo [u.a.] Springer 1998
Schlagworte:	Fotónica Materiales nanoestructurados Microscopía de campo cercano Optica cuántica Semiconductores Nanostrukturiertes Material Quantenoptik Nanostruktur Halbleiter Optische Nahfeldmikroskopie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIV, 302 S. Ill., graph. Darst.
ISBN:	4431702288

Internformat

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Datensatz im Suchindex

_version_	1804127034726678528
adam_text	M. OHTSU (ED.) NEAR-FIELD NANO/ATOM OPTICS AND TECHNOLOGY WITH 189 FIGURES / SPRINGER CONTENTS PREFACE V CONTENTS VII LIST OF CONTRIBUTORS XIII 1. INTRODUCTION 1 1.1 NEAR-FIELD OPTICS AND RELATED TECHNOLOGIES 1 1.2 HISTORY OF NEAR-FIELD OPTICS AND RELATED TECHNOLOGIES 2 1.3 BASIC FEATURES OF AN OPTICAL NEAR FIELD 3 1.3.1 OPTICALLY NEAR SYSTEM 3 1.3.2 EFFECTIVE FIELD AND EVANESCENT FIELD 5 1.3.3 NEAR-FIELD DETECTION OF EFFECTIVE FIELDS 6 1.3.4 ROLE OF A PROBE TIP 8 1.4 BUILDING BLOCKS OF NEAR-FIELD OPTICAL SYSTEMS 9 1.5 COMMENTS ON THE THEORY OF NEAR-FIELD OPTICS 11 1.6 COMPOSITUM OF THIS BOOK 13 REFERENCES 13 2. PRINCIPLES OF THE PROBE 15 2.1 BASIC PROBE 15 2.1.1 OPTICAL FIBER PROBE FOR THE NEAR-FIELD OPTICAL MICRO- SCOPE 15 2.1.2 PRINCIPLE OF THE IMAGING MECHANISM: DIPOLE-DIPOLE INTERACTION 16 2.1.3 RESOLUTION 17 2.1.4 CONTRAST 19 2.1.5 SENSITIVITY 24 2.2 FUNCTIONAL PROBE: NEW CONTRAST MECHANISMS 25 2.2.1 SIGNAL CONVERSION BY FUNCTIONAL PROBES 25 2.2.2 ABSORPTION AND EMISSION: RADIATIVE AND NONRADIATIVE J ENERG Y TRANSFER 26 2.2.3 RESONANCE, NONLINEARITY, AND OTHER MECHANISMS 27 REFERENCES 29 VIII CONTENTS 3. PROBE FABRICATION 31 3.1 INTRODUCTION 31 3.2 SELECTIVE ETCHING OF A SILICA FIBER COMPOSED OF A CORE AND CLADDING F. .. . 34 3.2.1 GEOMETRICAL MODEL OF SELECTIVE ETCHING 34 3.2.2 PURE SILICA FIBER WITH A FLUORINE DOPED CLADDING .... 35 3.2.3 GE0 2 DOPED FIBER 36 3.2.4 TAPERED FIBERS FOR OPTICAL TRANSMISSION SYSTEMS 37 3.3 SELECTIVE ETCHING OF A DISPERSION COMPENSATING FIBER ........ 38 3.3.1 SHOULDER-SHAPED PROBE 38 3.3.1.1 SHOULDER-SHAPED PROBE WITH A CONTROLLED CLADDING DIAMETER 38 3.3.1.2 SHOULDER-SHAPED PROBE WITH A NANOMETRIC FLATTENED APEX 40 3.3.1.3 DOUBLE-TAPERED PROBE 42 3.3.2 PENCIL-SHAPED PROBE 45 3.3.2.1 PENCIL-SHAPED PROBE WITH AN ULTRA-SMALL CONE ANGLE 45 3.3.2.2 PENCIL-SHAPED PROBE WITH A NANOMETRIC APEX DIAMETER 47 3.4 PROTRUSION-TYPE PROBE 51 3.4.1 SELECTIVE RESIN COATING METHOD 52 3.4.2 CHEMICAL POLISHING METHOD 54 3.5 HYBRID SELECTIVE ETCHING OF A DOUBLE-CLADDING FIBER 56 3.5.1 TRIPLE-TAPERED PROBE 56 3.5.2 GEOMETRICAL MODEL OF SELECTIVE ETCHING OF A DOUBLE- CLADDING FIBER 57 3.5.3 APPLICATION-ORIENTED PROBES: PENCIL-SHAPED PROBE AND TRIPLE-TAPERED PROBE 59 3.6 PROBE FOR ULTRAVIOLET NOM APPLICATIONS 62 3.6.1 UV SINGLE-TAPERED PROBE 62 3.6.2 UV TRIPLE-TAPERED PROBE 65 3.6.2.1 ADVANCED METHOD BASED ON HYBRID SELECTIVE ETCHING OF A DOUBLE CORE FIBER 65 3.6.2.2 GEOMETRICAL MODEL 67 REFERENCES 68 4. HIGH-THROUGHPUT PROBES 71 4.1 INTRODUCTION 71 4.2 EXCITATION OF THE HE-PLASMON MODE 73 4.2.1 MODE ANALYSIS 73 4.2.2 EDGED PROBES FOR EXCITING THE HE-PLASMON MODE 74 4.3 MULTIPLE-TAPERED PROBES 77 4.3.1 DOUBLE-TAPERED PROBE 77 4.3.2 TRIPLE-TAPERED PROBE 82 CONTENTS IX REFERENCES 87 5. FUNCTIONAL PROBES 89 5.1 INTRODUCTION 89 5.2 METHODS OF FIXATION 90 5.3 SELECTING A FUNCTIONAL MATERIAL 92 5.4 PROBE CHARACTERISTICS AND APPLICATIONS 93 5.4.1 DYE-FIXED PROBES 93 5.4.2 CHEMICAL SENSING PROBES 94 5.5 FUTURE DIRECTIONS 98 REFERENCES 99 6. INSTRUMENTATION OF NEAR-FIELD OPTICAL MICROSCOPY 101 6.1 OPERATION MODES OF NOM 101 6.1.1 C-MODE NOM 102 6.1.2 I-MODE NOM 104 6.1.3 COMPARATIVE FEATURES OF MODES OF NOM 105 6.2 SCANNING CONTROL MODES 107 6.2.1 CONSTANT-HEIGHT MODE 107 6.2.2 CONSTANT-DISTANCE MODE 108 6.2.2.1 SHEAR-FORCE FEED BACK 108 6.2.2.2 OPTICAL NEAR-FIELD INTENSITY FEEDBACK 111 REFERENCES 114 7. BASIC FEATURES OF OPTICAL NEAR-FIELD AND IMAGING 117 7.1 RESOLUTION CHARACTERISTICS 117 7.1.1 LONGITUDINAL RESOLUTION 117 7.1.2 LATERAL RESOLUTION 120 7.2 FACTORS INFLUENCING RESOLUTION 123 7.2.1 INFLUENCE OF PROBE PARAMETERS 124 7.2.2 DEPENDENCE ON SAMPLE-PROBE SEPARATION 124 7.3 POLARIZATION DEPENDENCE 125 7.3.1 INFLUENCE OF POLARIZATION ON THE IMAGES OF AN ULTRA- SMOOTH SAPPHIRE SURFACE 126 7.3.2 INFLUENCE OF POLARIZATION ON THE IMAGES OF LINBOS NANOCRYSTALS 130 REFERENCES 130 8. IMAGING BIOLOGICAL SPECIMENS 133 8.1 INTRODUCTION 133 8.2 OBSERVATION OF FLAGELLAR FILAMENTS BY C-MODE NOM 133 8.2.1 IMAGING IN AIR 134 8.2.2 IMAGING IN WATER 136 8.3 OBSERVATION OF SUBCELLULAR STRUCTURES OF NEURONS BY I-MODE NOM 136 X CONTENTS 8.3.1 IMAGING IN AIR UNDER SHEAR-FORCE FEEDBACK 137 8.3.1.1 IMAGING OF NEURONS WITHOUT DYE LABELING . . . 138 8.3.1.2 IMAGING OF NEURONS LABELED WITH TOLUIDINE BLUE 139 8.3.2 IMAGING IN WATER UNDER OPTICAL NEAR-FIELD INTENSITY FEEDBACK 140 8.3.2.1 IMAGING IN AIR 140 8.3.2.2 IMAGING IN PBS 142 8.4 IMAGING OF MICROTUBULES BY C-MODE NOM 144 8.5 IMAGING OF FLUORESCENT-LABELED BIOSPECIMENS 145 8.6 IMAGING DNA MOLECULES BY OPTICAL NEAR-FIELD INTENSITY FEEDBACK 148 REFERENCES 151 9. DIAGNOSING SEMICONDUCTOR NANO-MATERIALS AND DEVICES .. . 153 9.1 FUNDAMENTAL ASPECTS OF NEAR-FIELD STUDY OF SEMICONDUCTORS 153 9.1.1 NEAR-FIELD SPECTROSCOPY OF SEMICONDUCTORS 153 9.1.2 OPTICAL NEAR FIELD GENERATED BY A SMALL APERTURE AND ITS INTERACTION WITH SEMICONDUCTORS 154 9.1.3 OPERATION IN ILLUMINATION-COLLECTION HYBRID MODE . . . 156 9.2 MULTIDIAGNOSTICS OF LATERAL P-N JUNCTIONS 158 9.2.1 SAMPLE AND EXPERIMENTAL SET-UP 158 9.2.2 SPATIALLY RESOLVED PHOTOLUMINESCENCE SPECTROSCOPY . . 159 9.2.3 TWO-DIMENSIONAL MAPPING OF PHOTOLUMINESCENCE IN- TENSITY 163 9.2.4 COLLECTION-MODE IMAGING OF ELECTROLUMINESCENCE 163 9.2.5 MULTIWAVELENGTH PHOTOCURRENT SPECTROSCOPY 164 9.3 LOW-TEMPERATURE SINGLE QUANTUM DOT SPECTROSCOPY 169 9.3.1 NEAR-FIELD SINGLE QUANTUM DOT SPECTROSCOPY 169 9.3.2 LOW-TEMPERATURE NOM 170 9.3.3 SAMPLE AND EXPERIMENTAL SET-UP 171 9.3.4 FUNDAMENTAL PERFORMANCE OF THE SYSTEM 172 9.3.5 PHYSICAL INSIGHT OF SINGLE QUANTUM DOT PHOTOLUMI- NESCENCE 174 9.3.6 OBSERVATION OF OTHER TYPES OF QUANTUM DOTS 176 9.4 ULTRAVIOLET SPECTROSCOPY OF POLYSILANE MOLECULES 178 9.4.1 POLYSILANES 178 9.4.2 NEAR-FIELD ULTRAVIOLET SPECTROSCOPY 180 9.4.3 IMAGING AND SPECTROSCOPY OF POLYSILANE AGGREGATES . . . 181 9.5 RAMAN SPECTROSCOPY OF SEMICONDUCTORS 183 9.5.1 NEAR-FIELD RAMAN SPECTROSCOPY 183 9.5.2 RAMAN IMAGING AND SPECTROSCOPY OF POLYDIACETYLENE AND SI 184 9.6 DIAGNOSTICS OF AI STRIPES IN AN INTEGRATED CIRCUIT 186 9.6.1 PRINCIPLE OF DETECTION 186 CONTENTS XI 9.6.2 HEATING WITH A METALLIZED PROBE 187 9.6.3 HEATING BY AN APERTURED PROBE 188 REFERENCES 189 10. TOWARD NANO-PHOTONIC DEVICES 193 10.1 INTRODUCTION 193 10.2 USE OF SURFACE PLASMONS 193 10.2.1 PRINCIPLES OF SURFACE PLASMONS 193 10.2.2 OBSERVATION OF SURFACE PLASMONS 195 10.2.3 TOWARD TWO-DIMENSIONAL DEVICES 197 10.2.4 TOWARD THREE-DIMENSIONAL DEVICES 200 10.2.5 A PROTRUDED METALLIZED PROBE WITH AN APERTURE 204 10.3 APPLICATION TO HIGH-DENSITY OPTICAL MEMORY 207 10.3.1 PROBLEMS TO BE SOLVED 207 10.3.2 APPROACHES TO SOLVING THE PROBLEMS 208 10.3.2.1 STRUCTURE OF THE READ-OUT HEAD 208 10.3.2.2 STORAGE PROBE ARRAY 210 10.3.2.3 TRACK-LESS READ-OUT 210 10.3.3 FABRICATION OF A TWO-DIMENSIONAL PLANAR PROBE ARRAY 212 REFERENCES 214 11. NEAR-FIELD OPTICAL ATOM MANIPULATION: TOWARD ATOM PHO- TONICS 217 11.1 INTRODUCTION 217 11.1.1 CONTROL OF GASEOUS ATOMS: FROM FAR FIELD TO NEAR FIELD217 11.1.2 DIPOLE FORCE 219 11.1.3 ATOMIC QUANTUM SHEETS: ATOM REFLECTION USING A PLANAR OPTICAL NEAR FIELD 220 11.1.4 ATOMIC QUANTUM WIRES: ATOM GUIDANCE USING A CYLIN- DRICAL OPTICAL NEAR FIELD 221 11.1.5 ATOMIC QUANTUM DOTS: ATOM MANIPULATION USING A LOCALIZED OPTICAL NEAR FIELD 222 11.2 CYLINDRICAL OPTICAL NEAR FIELD FOR ATOMIC QUANTUM WIRES. . . 224 11.2.1 EXACT LIGHT-FIELD MODES IN HOLLOW OPTICAL FIBERS 224 11.2.2 APPROXIMATE LIGHT-FIELD MODES IN HOLLOW OPTICAL FIBERS 227 11.2.3 FIELD INTENSITY OF THE LP MODES 229 11.3 ATOMIC QUANTUM WIRES 230 11.3.1 NEAR-FIELD OPTICAL POTENTIAL 230 11.3.2 LASER SPECTROSCOPY OF GUIDED ATOMS WITH TWO-STEP PHOTOIONIZATION 231 11.3.3 OBSERVATION OF CAVITY QED EFFECTS IN A DIELECTRIC CYLINDER 235 11.3.4 ATOMIC QUANTUM WIRES WITH A LIGHT COUPLED SIDEWAYS239 11.4 OPTICALLY CONTROLLED ATOMIC DEPOSITION 240 XII CONTENTS 11.4.1 SPATIAL DISTRIBUTION OF GUIDED ATOMS 241 11.4.2 PRECISE CONTROL OF DEPOSITION RATE 243 11.4.3 IN-LINE SPATIAL ISOTOPE SEPARATION 244 11.5 NEAR-FIELD OPTICAL ATOMIC FUNNELS 246 11.5.1 ATOMIC FUNNEL WITH ATOMIC QUANTUM SHEET 247 11.5.2 SISYPHUS COOLING INDUCED BY OPTICAL NEAR FIELD 248 11.5.3 MONTE CARLO SIMULATIONS 251 11.6 ATOMIC QUANTUM DOTS 254 11.6.1 PHENOMENOLOGICAL APPROACH TO THE INTERACTION BE- TWEEN ATOMS AND THE LOCALIZED OPTICAL NEAR FIELD .. . 254 11.6.2 ATOM DEFLECTION 256 11.6.3 ATOM TRAP WITH A SHARPENED OPTICAL FIBER 258 11.6.4 THREE-DIMENSIONAL ATOM TRAP 259 11.7 FUTURE OUTLOOK 261 REFERENCES 263 12. RELATED THEORIES 267 12.1 COMPARISON OF THEORETICAL APPROACHES 267 12.2 SEMI-MICROSCOPIC AND MICROSCOPIC APPROACHES 270 12.2.1 BASIC EQUATIONS 270 12.2.2 EXAMPLE OF AN EVANESCENT FIELD 272 12.2.3 DIRECT AND INDIRECT FIELD PROPAGATORS 273 12.2.4 ELECTRIC SUSCEPTIBILITY OF MATTER 275 12.3 NUMERICAL EXAMPLES 277 12.3.1 WEAK VS. STRONG COUPLING 277 12.3.2 NEAR-FIELD- AND FAR-FIELD-PROPAGATING SIGNALS 280 12.3.3 SCANNING METHODS 282 12.3.4 POSSIBILITY OF SPIN-POLARIZATION DETECTION 284 12.4 EFFECTIVE FIELD AND MASSIVE VIRTUAL PHOTON MODEL 288 12.5 FUTURE DIRECTION 290 REFERENCES 290 INDEX 295
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spelling	Near-field nano/atom optics and technology M. Ohtsu (Ed.) Tokyo [u.a.] Springer 1998 XIV, 302 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Fotónica Materiales nanoestructurados Microscopía de campo cercano Optica cuántica Semiconductores Nanostrukturiertes Material (DE-588)4342626-8 gnd rswk-swf Quantenoptik (DE-588)4047990-0 gnd rswk-swf Nanostruktur (DE-588)4204530-7 gnd rswk-swf Halbleiter (DE-588)4022993-2 gnd rswk-swf Optische Nahfeldmikroskopie (DE-588)4380320-9 gnd rswk-swf Nanostruktur (DE-588)4204530-7 s Quantenoptik (DE-588)4047990-0 s Optische Nahfeldmikroskopie (DE-588)4380320-9 s Halbleiter (DE-588)4022993-2 s DE-604 Nanostrukturiertes Material (DE-588)4342626-8 s 1\p DE-604 Ōtsu, Motoichi 1950- Sonstige (DE-588)137365950 oth GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008412326&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Near-field nano/atom optics and technology Fotónica Materiales nanoestructurados Microscopía de campo cercano Optica cuántica Semiconductores Nanostrukturiertes Material (DE-588)4342626-8 gnd Quantenoptik (DE-588)4047990-0 gnd Nanostruktur (DE-588)4204530-7 gnd Halbleiter (DE-588)4022993-2 gnd Optische Nahfeldmikroskopie (DE-588)4380320-9 gnd
subject_GND	(DE-588)4342626-8 (DE-588)4047990-0 (DE-588)4204530-7 (DE-588)4022993-2 (DE-588)4380320-9
title	Near-field nano/atom optics and technology
title_auth	Near-field nano/atom optics and technology
title_exact_search	Near-field nano/atom optics and technology
title_full	Near-field nano/atom optics and technology M. Ohtsu (Ed.)
title_fullStr	Near-field nano/atom optics and technology M. Ohtsu (Ed.)
title_full_unstemmed	Near-field nano/atom optics and technology M. Ohtsu (Ed.)
title_short	Near-field nano/atom optics and technology
title_sort	near field nano atom optics and technology
topic	Fotónica Materiales nanoestructurados Microscopía de campo cercano Optica cuántica Semiconductores Nanostrukturiertes Material (DE-588)4342626-8 gnd Quantenoptik (DE-588)4047990-0 gnd Nanostruktur (DE-588)4204530-7 gnd Halbleiter (DE-588)4022993-2 gnd Optische Nahfeldmikroskopie (DE-588)4380320-9 gnd
topic_facet	Fotónica Materiales nanoestructurados Microscopía de campo cercano Optica cuántica Semiconductores Nanostrukturiertes Material Quantenoptik Nanostruktur Halbleiter Optische Nahfeldmikroskopie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008412326&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT otsumotoichi nearfieldnanoatomopticsandtechnology

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