Integrated nanophotonics: platforms, devices, and applications
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| Weitere Verfasser: | , , |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Weinheim
Wiley-VCH
[2023]
|
| Schlagworte: | |
| Online-Zugang: | http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34912-8/ Inhaltsverzeichnis |
| Beschreibung: | xii, 364 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm |
| ISBN: | 9783527349128 |
Internformat
MARC
| LEADER | 00000nam a22000008c 4500 | ||
|---|---|---|---|
| 001 | BV049047892 | ||
| 003 | DE-604 | ||
| 005 | 20230803 | ||
| 007 | t | ||
| 008 | 230712s2023 gw a||| |||| 00||| eng d | ||
| 015 | |a 22,N47 |2 dnb | ||
| 016 | 7 | |a 1273087526 |2 DE-101 | |
| 020 | |a 9783527349128 |c : circa EUR 149.00 (DE) (freier Preis), circa EUR 153.20 (AT) (freier Preis) |9 978-3-527-34912-8 | ||
| 024 | 3 | |a 9783527349128 | |
| 028 | 5 | 2 | |a Bestellnummer: 1134912 000 |
| 035 | |a (OCoLC)1392142880 | ||
| 035 | |a (DE-599)DNB1273087526 | ||
| 040 | |a DE-604 |b ger |e rda | ||
| 041 | 0 | |a eng | |
| 044 | |a gw |c XA-DE-BW | ||
| 049 | |a DE-29T | ||
| 084 | |8 1\p |a 540 |2 23sdnb | ||
| 245 | 1 | 0 | |a Integrated nanophotonics |b platforms, devices, and applications |c edited by Peng Yu, Hongxing Xu, and Zhiming Wang |
| 264 | 1 | |a Weinheim |b Wiley-VCH |c [2023] | |
| 300 | |a xii, 364 Seiten |b Illustrationen, Diagramme |c 24.4 cm x 17 cm | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 0 | 7 | |a Nanophotonik |0 (DE-588)7618094-3 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Integrierte Schaltung |0 (DE-588)4027242-4 |2 gnd |9 rswk-swf |
| 653 | |a EE50: Photonik u. Laser | ||
| 653 | |a Electrical & Electronics Engineering | ||
| 653 | |a Elektrotechnik u. Elektronik | ||
| 653 | |a MS50: Optische u. Nichtlineare Optische Materialien | ||
| 653 | |a Materials Science | ||
| 653 | |a Materialwissenschaften | ||
| 653 | |a Nanophotonics | ||
| 653 | |a Nanophotonik | ||
| 653 | |a Optical and Non-Linear Optical Materials | ||
| 653 | |a Optics & Photonics | ||
| 653 | |a Optik | ||
| 653 | |a Optik u. Photonik | ||
| 653 | |a Optische u. Nichtlineare Optische Materialien | ||
| 653 | |a PH40: Optik u. Photonik | ||
| 653 | |a Photonics & Lasers | ||
| 653 | |a Photonik | ||
| 653 | |a Photonik u. Laser | ||
| 653 | |a Physics | ||
| 653 | |a Physik | ||
| 655 | 7 | |0 (DE-588)4143413-4 |a Aufsatzsammlung |2 gnd-content | |
| 689 | 0 | 0 | |a Nanophotonik |0 (DE-588)7618094-3 |D s |
| 689 | 0 | 1 | |a Integrierte Schaltung |0 (DE-588)4027242-4 |D s |
| 689 | 0 | |5 DE-604 | |
| 700 | 1 | |a Yu, Peng |4 edt | |
| 700 | 1 | |a Xu, Hongxing |4 edt | |
| 700 | 1 | |a Wang, Zhiming M. |0 (DE-588)1082354384 |4 edt | |
| 710 | 2 | |a Wiley-VCH |0 (DE-588)16179388-5 |4 pbl | |
| 776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe, PDF |z 978-3-527-83302-3 |
| 776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe, EPUB |z 978-3-527-83304-7 |
| 776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe, oBook |z 978-3-527-83303-0 |
| 856 | 4 | 2 | |m X:MVB |u http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34912-8/ |
| 856 | 4 | 2 | |m DNB Datenaustausch |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034310299&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-034310299 | ||
| 883 | 1 | |8 1\p |a vlb |d 20221118 |q DE-101 |u https://d-nb.info/provenance/plan#vlb | |
Datensatz im Suchindex
| _version_ | 1804185345702494208 |
|---|---|
| adam_text | CONTENTS
PREFACE
XI
1
PACKAGING
AND
TEST
OF
PHOTONIC
INTEGRATED
CIRCUITS
(PICS)
1
STEPHANE
BERNABE,
TOLGA
TEKIN,
BOGDAN
SIRBU,
JEAN
CHARBONNIER,
PHILIPPE
GROSSE,
AND
MORITZ
SEYFRIED
1.1
1.2
1.2.1
1.2.2
1.2.2.1
1.2.2.2
1.2.2.3
1.2.3
1.2.4
1.2.5
1.2.5.1
1.2.5.2
1.2.5.3
1.2.5.4
1.2.6
1.3
1.3.1
1.3.2
1.3.2.1
1.3.2.2
1.3.3
1.3.3.1
INTRODUCTION
1
CHALLENGES
AND
SPECIFICITIES
OF
PIC
PACKAGING
AND
TEST
2
OPTICAL
INTERCONNECTS
3
COUPLING
STRUCTURES
5
EDGE
COUPLER
5
VERTICAL
GRATING
COUPLER
(VGC)
6
EVANESCENT
COUPLING
7
WAFER-LEVEL
TEST
7
MODULE
PACKAGING
10
FIBER
OPTIC
ASSEMBLY
(PIGTAILING)
12
PIC
ALIGNMENT
TO
A
LENSED
FIBER
12
PIC
BUTT
COUPLING
TO
A
STANDARD
CLEAVED
SINGLE-MODE
FIBER
12
LENS
COUPLING
SCHEME
13
OPTICAL
WAVEGUIDE
INTERPOSER
COUPLING
14
EMERGING
TRENDS
FOR
MODULE
MASS
MANUFACTURING
15
ADVANCES
IN
OPTICAL
COUPLING
STRATEGIES
18
TOWARD
PASSIVE
ALIGNMENT
STRATEGIES
19
ADVANCED
TECHNOLOGIES
FOR
VISION-ASSISTED
TECHNOLOGIES
20
OPEN-LOOP
ALIGNMENT
20
CLOSED-LOOP
ALIGNMENT
20
ADVANCED
TECHNOLOGIES
FOR
SELF-ALIGNMENT
STRATEGIES
21
SELF-ALIGNMENT
OF
FIBER
TO
PIC
THROUGH
AN
SILICON
OPTICAL
BENCH
USING
FLIP-CHIP
22
1.3.3.2
1.3.3.3
1.3.3.4
1.3.4
1.4
SELF-ALIGNMENT-ASSISTED
MICROLENSES
ASSEMBLY
22
SELF-ALIGNMENT
OF
POLYMER
WAVEGUIDES
22
SELF-ALIGNMENT
OF
OPTICAL
PLUG
23
LASER/PIC
COUPLING
23
ELECTRONIC/PHOTONIC
CONVERGENCE
25
VI
CONTENTS
1.4.1
1.4.1.1
1.4.1.2
1.4.2
1.4.2.1
1.4.2.2
1.4.2.3
1.4.3
1.4.4
1.4.4.1
1.4.4.2
1.5
1.5.1
1.5.1.1
1.5.1.2
1.5.2
1.5.3
1.6
FLIP-CHIP
INTERCONNECTS
26
STANDARD
DIE-TO-DIE
INTERCONNECTS
26
ADVANCED
INTERCONNECTS
FOR
FUTURE
NEEDS
27
INTRA-CONNECTIONS
(THROUGH
SILICON
VIAS
AND
THROUGH
GLASS
VIAS)
29
TSV
LAST
PROCESS
29
TSV
MIDDLE
PROCESS
30
THROUGH
GLASS
VIA
(TGV)
31
FAN-OUT
WAFER-LEVEL
PACKAGING
(FOWLP)
31
INTERPOSERS
INTEGRATION
APPROACH
32
INTERPOSERS
FOR
ELECTRONIC
INTEGRATED
CIRCUITS
(CMOS)
33
PHOTONIC
INTERPOSER
AND
PHOTONIC
SYSTEMS
ON
CHIP
34
TOWARD
AN
ECOSYSTEM
IN
TEST
AND
ASSEMBLY
OF
PICS
36
DESIGN
RULES
FOR
PACKAGING
AND
TEST
36
3D
PACKAGING
38
DESIGN
RULES
FOR
TESTING
39
ADVANCED
TECHNIQUES
FOR
WAFER-LEVEL
TEST
39
RECENT
ACHIEVEMENTS
AND
FUTURE
ASPECTS
IN
ASSEMBLY
MACHINES
40
CONCLUSION
45
ACKNOWLEDGMENTS
46
REFERENCES
46
2
THE
LAST
MILE
TECHNOLOGY
OF
SILICON
PHOTONICS
TOWARD
PRODUCTIONS
AND
EMERGING
APPLICATIONS
53
BO
LI,
SHAWN
YOHANES
SIEW,
FENG
GAO,
SHAWN
WU
XIE,
QIANG
LI,
CHAO
LI,
XIANSHU
LUO,
GUO-QIANG
LO,
AND
JUNFENG
SONG
2.1
2.2
2.3
2.4
2.5
2.5.1
2.5.2
INTRODUCTION
53
FIBER-TO-CHIP
ASSEMBLY
55
HYBRID
INTEGRATION
OF
LIGHT
SOURCE
59
ELECTRONIC
AND
PHOTONIC
CO-PACKAGING
63
OUTLOOK
65
SILICON
PHOTONICS
EMERGING
APPLICATIONS
65
OPPORTUNITIES
AND
CHALLENGES
68
REFERENCES
70
3
INTEGRATED
NONLINEAR
PHOTONICS
AND
EMERGING
APPLICATIONS
75
YANG
YUE,
WENPU
GENG,
YUXI
FANG,
AND
YINGNING
WANG
3.1
3.2
3.2.1
3.2.2
3.2.3
3.3
3.3.1
3.3.2
INTRODUCTION
75
SUPERCONTINUUM
77
APPLICATIONS
77
HISTORY
OF
SCG
IN
INTEGRATED
WAVEGUIDES
79
REPRESENTATIVE
WORKS
83
OPTICAL
FREQUENCY
COMB
90
MICRORESONATOR-BASED
OFC
91
SC-BASED
OFC
99
CONTENTS
VII
3.3.3
3.3.4
3.3.5
3.4
3.4.1
3.4.2
3.4.3
3.5
EO-BASED
OFC
99
MLL-BASED
OFC
99
APPLICATIONS
101
NONLINEAR
WAVE
MIXING
102
INTRODUCTION
102
NONLINEAR
OPTICAL
SIGNAL
PROCESSING
IN
INTEGRATED
WAVEGUIDES
105
REPRESENTATIVE
WORKS
108
CONCLUSION
AND
PERSPECTIVES
116
REFERENCES
117
4
EXCITATION,
GENERATION,
POSITIONING,
AND
MODULATION
FOR
QUANTUM
LIGHT
SOURCES
INTEGRATED
ON
CHIP
135
CUO
WU,
CUIPING
MA,
AND
ZHIMING
WANG
4.1
4.2
4.3
4.3.1
4.3.2
4.3.3
4.4
4.5
4.6
INTRODUCTION
135
EXCITATION
AND
ORIENTATION
OF
QUANTUM
EMITTERS
136
CHIP-SCALE
INTEGRATION
BASED
ON
QUANTUM
EMITTERS
141
SOLUTION-BASED
COLLOIDAL
AND
SELF-ASSEMBLED
QUANTUM
DOTS
141
STRAIN-INDUCED
EMITTER
SITES
OF
TWO-DIMENSIONAL
MATERIALS
144
COLOR
CENTERS
IN
NANODIAMOND
148
DETERMINISTICALLY
POSITIONING
OF
QUANTUM
EMITTER
154
QUANTUM
LIGHT
INTERACTION
WITH
METASURFACE
FOR
MODULATION
156
CONCLUSION
159
REFERENCES
160
5
QUANTUM
LIGHT
SOURCES
IN
TWO-DIMENSIONAL
MATERIALS
167
YANAN
WANG
AND
PHILIP
X.-L.
FENG
5.1
5.2
5.2.1
5.2.1.1
5.2.1.2
5.2.1.3
5.2.2
5.2.2.1
5.2.2.2
5.2.2.3
5.2.2.4
5.2.2.5
5.2.2.6
5.2.2.7
5.3
5.3.1
5.3.2
5.3.3
INTRODUCTION
167
THEORY
OF
QUANTUM
LIGHT
SOURCES
168
PHOTON
STATISTICS
168
THERMAL
LIGHT
169
COHERENT
LIGHT
170
SQUEEZED
LIGHT
170
CHARACTERISTICS OF
QUANTUM
LIGHT
SOURCES
172
WAVELENGTH
172
LIFETIME,
EMISSION
RATE,
AND
BRIGHTNESS
172
EMISSION
LINEWIDTH
173
ZERO-PHONON
LINE
(ZPL)
AND
DEBYE-WALLER
FACTOR
173
PHOTON
POLARIZATION
AND
DIPOLE
ORIENTATION
173
OPTICALLY
ADDRESSABLE
SPIN STATE
174
INDISTINGUISHABILITY
174
QUANTUM
LIGHT
SOURCES
IN
2D
MATERIALS
175
LOCALIZED
EXCITONS
IN
TRANSITION
METAL
DICHALCOGENIDES
176
DEFECT
CENTERS
IN
HEXAGONAL
BORON
NITRIDE
179
GRAPHENE
QUANTUM
DOTS
183
VIII
CONTENTS
5.3.4
5.4
5.4.1
5.4.1.1
5.4.1.2
5.4.2
5.4.2.1
5.4.2.2
5.4.2.3
5.4.3
5.5
5.5.1
5.5.2
5.6
QUANTUM
LIGHT-EMITTING
DIODES
186
INTEGRATION
WITH
ON-CHIP
COMPONENTS
189
THEORY
OF
SPE-CAVITY
COUPLING
190
STRONG
COUPLING
REGIME
190
WEAK
COUPLING
REGIME
191
INTEGRATION
WITH
DIELECTRIC
WAVEGUIDES
AND
CAVITIES
191
TRANSFERRING
2D
SPES
ONTO
PREDEFINED
STRUCTURES
192
TRANSFERRING
OR
FABRICATING
PHOTONIC
STRUCTURES
ON
2D
MATERIALS
194
MONOLITHIC
INTEGRATION
195
INTEGRATION
WITH
PLASMONIC
WAVEGUIDES
AND
CAVITIES
197
INTEGRATION
WITH
OFF-CHIP
COMPONENTS
199
FLIP-CHIP
INTEGRATION
199
INTEGRATION
WITH
OPTIC
FIBERS
200
SUMMARY
AND
OUTLOOK
202
ACKNOWLEDGMENTS
203
REFERENCES
204
6
INVERSE
DESIGN
FOR
INTEGRATED
PHOTONICS
USING
DEEP
NEURAL
NETWORK
209
KEISUKE
KOJIMA,
TOSHIAKI
KOIKE-AKINO,
YINGHENG
TANG,
AND
YE
WANG
6.1
6.2
6.2.1
6.2.2
6.2.3
6.3
6.4
6.5
INTRODUCTION
209
DEEP
NEURAL
NETWORK
(DNN)
MODELS
210
FORWARD
MODELING
211
INVERSE
MODELING
212
GENERATIVE
MODELING
212
DEEP
LEARNING
FOR
FORWARD
MODELING
TO
PREDICT
OPTICAL
RESPONSE
212
DEEP
LEARNING
FOR
INVERSE
MODELING
TO
CONSTRUCT
DEVICE
TOPOLOGY
217
DEEP
LEARNING
FOR
GENERATIVE
MODELING
TO
PRODUCE
DEVICE
TOPOLOGY
CANDIDATES
220
6.6
6.7
6.7.1
6.7.2
6.7.3
6.7.4
6.7.5
6.7.6
6.7.7
6.8
6.8.1
6.8.2
6.8.3
PHYSICS-INFORMED
NEURAL
NETWORKS
225
NANOPHOTONIC
POWER
SPLITTER
DESIGN
USING
GENERATIVE
MODELING
227
DEVICE
STRUCTURE
228
DEVICE
SIMULATION
PROCEDURE
229
NETWORK
ARCHITECTURE
230
NETWORK
TRAINING
PROCEDURE
231
DEVICE
GENERATION
PERFORMANCE
232
HYPERPARAMETERS
234
ADJOINT
METHOD
VS.
DEEP
LEARNING
234
DEEP
LEARNING
TECHNIQUES
235
CONVOLUTIONAL
NEURAL
NETWORKS
235
TRANSFER
LEARNING
AND
FINE
TUNING
235
AUTOML:
META
LEARNING,
LEARNING
TO
LEARN,
NETWORK
ARCHITECTURE
SEARCH
236
6.9
CONCLUSION
237
REFERENCES
237
CONTENTS
IX
7
DEEP
LEARNING
DRIVEN
DATA
PROCESSING,
MODELING,
AND
INVERSE
DESIGN
FOR
NANOPHOTONICS
245
PETER
R.
WIECHA,
NICHOLAS
J.
DINSDALE,
AND
OTTO
L.
MUSKENS
7.1
7.2
7.2.1
7.2.2
7.3
7.3.1
INTRODUCTION
245
ARTIFICIAL
NEURAL
NETWORKS
AND
DEEP
LEARNING
245
ARTIFICIAL
NEURONS
AND
NEURAL
NETWORKS
246
TRAINING
OF
ARTIFICIAL
NEURAL
NETWORKS
247
ULTRAFAST
PHYSICS
PREDICTIONS
248
SPECIALIZED
PHYSICS
PREDICTORS:
FULLY
CONNECTED
VS.
CONVOLUTIONAL
ANNS
249
7.3.2
7.4
7.4.1
7.4.1.1
7.4.1.2
7.4.2
7.4.3
7.4.3.1
7.4.3.2
7.4.3.3
7.4.3.4
7.5
7.5.1
7.5.2
7.6
GENERALIZED
NANOPHOTONICS PREDICTOR
NETWORK
252
PHOTONICS
INVERSE
DESIGN
255
PREDICTOR
NETWORK
AS
A
SURROGATE
MODEL
FOR
OPTIMIZATION
256
EXAMPLE:
POLARIZATION
CONVERSION
MAXIMIZATION
257
EXAMPLE:
MAXIMIZE
MAGNETIC
NEAR-FIELD
258
DIRECT
INVERSE
DESIGN
NETWORKS
259
OPTIMIZING
INVERSE
DESIGN
PERFORMANCE
260
OPTIMIZING
THE
NETWORK
LAYOUT
262
QUALITY
OF
THE
INITIAL
DATASET
262
ITERATIVE
TRAINING
264
POSTPROCESSING
265
ADVANCED
DATA
PROCESSING
FOR
PHOTONICS
APPLICATIONS
265
OPTICAL
DATA
STORAGE
BELOW
THE
DIFFRACTION
LIMIT
265
SPECKLE
RECONSTRUCTION
FOR
REAL-TIME
HYPERSPECTRAL
IMAGING
267
CONCLUSION
AND
OUTLOOK
269
REFERENCES
270
8
OPTICAL
WAVEGUIDE
OF
LITHIUM
NIOBATE
NANOPHOTONICS
277
YARUB
AL-DOURI
8.1
8.2
8.3
8.4
INTRODUCTION
277
PHOTONICS
LITHIUM
NIOBATE
278
NANOPHOTONIC
LITHIUM
NIOBATE-BASED
OPTICAL
WAVEGUIDE
286
OPTICAL
STUDIES
OF
NANOPHOTONIC
LITHIUM
NIOBATE-BASED
OPTICAL
WAVEGUIDE
287
8.5
8.6
8.7
NANOPHOTONIC
LINBO,
UNDER
STIRRER
TIME
EFFECT
295
NANOPHOTONIC
STUDIES
OF
LINBO
3
UNDER
STIRRER
TIME
EFFECT
297
CONCLUSIONS
304
REFERENCES
305
9
ACTIVE,
TUNABLE,
AND
RECONFIGURABLE
NANOPHOTONICS
313
TREVON
BADLOE,
JAEHYUCK
JANG,
HEONYEONG
JEONG,
MINSU
JEONG,
INKI
KIM,
BYOUNGSU
KO,
JIHAE
LEE,
TAEJUN
LEE,
SEONG-WON
MOON,
DONG
KYO
OH,
YOUNGHWAN
YANG,
GWANHO
YOON,
AND
JUNSUK
RHO
9.1
9.2
INTRODUCTION
313
LIQUID
CRYSTAL-INTEGRATED
TUNABLE
DEVICES
314
INDEX
359
CONTENTS
9.2.1
DEVICES
THAT
MODULATE
POLARIZATION
314
9.2.2
DEVICES
THAT
MODULATE
EFFECTIVE
REFRACTIVE
INDEX
316
9.3
OPTICALLY
TUNABLE
DEVICES
318
9.3.1
DEVICES
THAT
ARE
DEPENDENT
ON
THE
DIRECTION
OF
INCIDENT
LIGHT
318
9.3.2
DEVICES
THAT
DEPEND
ON
WAVELENGTH
319
9.3.3
DEVICES
THAT
DEPEND
ON
POLARIZATION
(SPIN)
321
9.3.4
ORBITAL
ANGULAR
MOMENTUM-DEPENDENT
DEVICES
323
9.4
PHASE
CHANGE
MATERIALS-BASED
RECONFIGURABLE
DEVICES
324
9.4.1
SWITCHABLE
ABSORBERS
324
9.4.2
THERMOCHROMIC
SMART
WINDOWS
327
9.5
MECHANICALLY
TUNABLE
PHOTONIC
DEVICES
329
9.5.1
TUNABLE
DEVICES
THAT
USE
MICRO-ELECTRO-MECHANICAL
SYSTEMS
329
9.5.2
PHOTONIC
DEVICES
THAT
ARE
TUNED
USING
STRAIN
331
9.6
TUNABLE
PHOTONIC
DEVICES
WITH
MATERIAL ENGINEERING
335
9.6.1
BANDGAP
ENGINEERING
FOR
TUNABLE
SOLID-STATE
DEVICES
335
9.6.2
BIOMATERIALS
FOR
TUNABLE
BIOPHOTONIC
DEVICES
339
9.7
ELECTRICALLY
TUNABLE
PHOTONIC
DEVICES
341
ACKNOWLEDGMENTS
346
REFERENCES
346
|
| adam_txt |
CONTENTS
PREFACE
XI
1
PACKAGING
AND
TEST
OF
PHOTONIC
INTEGRATED
CIRCUITS
(PICS)
1
STEPHANE
BERNABE,
TOLGA
TEKIN,
BOGDAN
SIRBU,
JEAN
CHARBONNIER,
PHILIPPE
GROSSE,
AND
MORITZ
SEYFRIED
1.1
1.2
1.2.1
1.2.2
1.2.2.1
1.2.2.2
1.2.2.3
1.2.3
1.2.4
1.2.5
1.2.5.1
1.2.5.2
1.2.5.3
1.2.5.4
1.2.6
1.3
1.3.1
1.3.2
1.3.2.1
1.3.2.2
1.3.3
1.3.3.1
INTRODUCTION
1
CHALLENGES
AND
SPECIFICITIES
OF
PIC
PACKAGING
AND
TEST
2
OPTICAL
INTERCONNECTS
3
COUPLING
STRUCTURES
5
EDGE
COUPLER
5
VERTICAL
GRATING
COUPLER
(VGC)
6
EVANESCENT
COUPLING
7
WAFER-LEVEL
TEST
7
MODULE
PACKAGING
10
FIBER
OPTIC
ASSEMBLY
(PIGTAILING)
12
PIC
ALIGNMENT
TO
A
LENSED
FIBER
12
PIC
BUTT
COUPLING
TO
A
STANDARD
CLEAVED
SINGLE-MODE
FIBER
12
LENS
COUPLING
SCHEME
13
OPTICAL
WAVEGUIDE
INTERPOSER
COUPLING
14
EMERGING
TRENDS
FOR
MODULE
MASS
MANUFACTURING
15
ADVANCES
IN
OPTICAL
COUPLING
STRATEGIES
18
TOWARD
PASSIVE
ALIGNMENT
STRATEGIES
19
ADVANCED
TECHNOLOGIES
FOR
VISION-ASSISTED
TECHNOLOGIES
20
OPEN-LOOP
ALIGNMENT
20
CLOSED-LOOP
ALIGNMENT
20
ADVANCED
TECHNOLOGIES
FOR
SELF-ALIGNMENT
STRATEGIES
21
SELF-ALIGNMENT
OF
FIBER
TO
PIC
THROUGH
AN
SILICON
OPTICAL
BENCH
USING
FLIP-CHIP
22
1.3.3.2
1.3.3.3
1.3.3.4
1.3.4
1.4
SELF-ALIGNMENT-ASSISTED
MICROLENSES
ASSEMBLY
22
SELF-ALIGNMENT
OF
POLYMER
WAVEGUIDES
22
SELF-ALIGNMENT
OF
OPTICAL
PLUG
23
LASER/PIC
COUPLING
23
ELECTRONIC/PHOTONIC
CONVERGENCE
25
VI
CONTENTS
1.4.1
1.4.1.1
1.4.1.2
1.4.2
1.4.2.1
1.4.2.2
1.4.2.3
1.4.3
1.4.4
1.4.4.1
1.4.4.2
1.5
1.5.1
1.5.1.1
1.5.1.2
1.5.2
1.5.3
1.6
FLIP-CHIP
INTERCONNECTS
26
STANDARD
DIE-TO-DIE
INTERCONNECTS
26
ADVANCED
INTERCONNECTS
FOR
FUTURE
NEEDS
27
INTRA-CONNECTIONS
(THROUGH
SILICON
VIAS
AND
THROUGH
GLASS
VIAS)
29
TSV
LAST
PROCESS
29
TSV
MIDDLE
PROCESS
30
THROUGH
GLASS
VIA
(TGV)
31
FAN-OUT
WAFER-LEVEL
PACKAGING
(FOWLP)
31
INTERPOSERS
INTEGRATION
APPROACH
32
INTERPOSERS
FOR
ELECTRONIC
INTEGRATED
CIRCUITS
(CMOS)
33
PHOTONIC
INTERPOSER
AND
PHOTONIC
SYSTEMS
ON
CHIP
34
TOWARD
AN
ECOSYSTEM
IN
TEST
AND
ASSEMBLY
OF
PICS
36
DESIGN
RULES
FOR
PACKAGING
AND
TEST
36
3D
PACKAGING
38
DESIGN
RULES
FOR
TESTING
39
ADVANCED
TECHNIQUES
FOR
WAFER-LEVEL
TEST
39
RECENT
ACHIEVEMENTS
AND
FUTURE
ASPECTS
IN
ASSEMBLY
MACHINES
40
CONCLUSION
45
ACKNOWLEDGMENTS
46
REFERENCES
46
2
THE
LAST
MILE
TECHNOLOGY
OF
SILICON
PHOTONICS
TOWARD
PRODUCTIONS
AND
EMERGING
APPLICATIONS
53
BO
LI,
SHAWN
YOHANES
SIEW,
FENG
GAO,
SHAWN
WU
XIE,
QIANG
LI,
CHAO
LI,
XIANSHU
LUO,
GUO-QIANG
LO,
AND
JUNFENG
SONG
2.1
2.2
2.3
2.4
2.5
2.5.1
2.5.2
INTRODUCTION
53
FIBER-TO-CHIP
ASSEMBLY
55
HYBRID
INTEGRATION
OF
LIGHT
SOURCE
59
ELECTRONIC
AND
PHOTONIC
CO-PACKAGING
63
OUTLOOK
65
SILICON
PHOTONICS
EMERGING
APPLICATIONS
65
OPPORTUNITIES
AND
CHALLENGES
68
REFERENCES
70
3
INTEGRATED
NONLINEAR
PHOTONICS
AND
EMERGING
APPLICATIONS
75
YANG
YUE,
WENPU
GENG,
YUXI
FANG,
AND
YINGNING
WANG
3.1
3.2
3.2.1
3.2.2
3.2.3
3.3
3.3.1
3.3.2
INTRODUCTION
75
SUPERCONTINUUM
77
APPLICATIONS
77
HISTORY
OF
SCG
IN
INTEGRATED
WAVEGUIDES
79
REPRESENTATIVE
WORKS
83
OPTICAL
FREQUENCY
COMB
90
MICRORESONATOR-BASED
OFC
91
SC-BASED
OFC
99
CONTENTS
VII
3.3.3
3.3.4
3.3.5
3.4
3.4.1
3.4.2
3.4.3
3.5
EO-BASED
OFC
99
MLL-BASED
OFC
99
APPLICATIONS
101
NONLINEAR
WAVE
MIXING
102
INTRODUCTION
102
NONLINEAR
OPTICAL
SIGNAL
PROCESSING
IN
INTEGRATED
WAVEGUIDES
105
REPRESENTATIVE
WORKS
108
CONCLUSION
AND
PERSPECTIVES
116
REFERENCES
117
4
EXCITATION,
GENERATION,
POSITIONING,
AND
MODULATION
FOR
QUANTUM
LIGHT
SOURCES
INTEGRATED
ON
CHIP
135
CUO
WU,
CUIPING
MA,
AND
ZHIMING
WANG
4.1
4.2
4.3
4.3.1
4.3.2
4.3.3
4.4
4.5
4.6
INTRODUCTION
135
EXCITATION
AND
ORIENTATION
OF
QUANTUM
EMITTERS
136
CHIP-SCALE
INTEGRATION
BASED
ON
QUANTUM
EMITTERS
141
SOLUTION-BASED
COLLOIDAL
AND
SELF-ASSEMBLED
QUANTUM
DOTS
141
STRAIN-INDUCED
EMITTER
SITES
OF
TWO-DIMENSIONAL
MATERIALS
144
COLOR
CENTERS
IN
NANODIAMOND
148
DETERMINISTICALLY
POSITIONING
OF
QUANTUM
EMITTER
154
QUANTUM
LIGHT
INTERACTION
WITH
METASURFACE
FOR
MODULATION
156
CONCLUSION
159
REFERENCES
160
5
QUANTUM
LIGHT
SOURCES
IN
TWO-DIMENSIONAL
MATERIALS
167
YANAN
WANG
AND
PHILIP
X.-L.
FENG
5.1
5.2
5.2.1
5.2.1.1
5.2.1.2
5.2.1.3
5.2.2
5.2.2.1
5.2.2.2
5.2.2.3
5.2.2.4
5.2.2.5
5.2.2.6
5.2.2.7
5.3
5.3.1
5.3.2
5.3.3
INTRODUCTION
167
THEORY
OF
QUANTUM
LIGHT
SOURCES
168
PHOTON
STATISTICS
168
THERMAL
LIGHT
169
COHERENT
LIGHT
170
SQUEEZED
LIGHT
170
CHARACTERISTICS OF
QUANTUM
LIGHT
SOURCES
172
WAVELENGTH
172
LIFETIME,
EMISSION
RATE,
AND
BRIGHTNESS
172
EMISSION
LINEWIDTH
173
ZERO-PHONON
LINE
(ZPL)
AND
DEBYE-WALLER
FACTOR
173
PHOTON
POLARIZATION
AND
DIPOLE
ORIENTATION
173
OPTICALLY
ADDRESSABLE
SPIN STATE
174
INDISTINGUISHABILITY
174
QUANTUM
LIGHT
SOURCES
IN
2D
MATERIALS
175
LOCALIZED
EXCITONS
IN
TRANSITION
METAL
DICHALCOGENIDES
176
DEFECT
CENTERS
IN
HEXAGONAL
BORON
NITRIDE
179
GRAPHENE
QUANTUM
DOTS
183
VIII
CONTENTS
5.3.4
5.4
5.4.1
5.4.1.1
5.4.1.2
5.4.2
5.4.2.1
5.4.2.2
5.4.2.3
5.4.3
5.5
5.5.1
5.5.2
5.6
QUANTUM
LIGHT-EMITTING
DIODES
186
INTEGRATION
WITH
ON-CHIP
COMPONENTS
189
THEORY
OF
SPE-CAVITY
COUPLING
190
STRONG
COUPLING
REGIME
190
WEAK
COUPLING
REGIME
191
INTEGRATION
WITH
DIELECTRIC
WAVEGUIDES
AND
CAVITIES
191
TRANSFERRING
2D
SPES
ONTO
PREDEFINED
STRUCTURES
192
TRANSFERRING
OR
FABRICATING
PHOTONIC
STRUCTURES
ON
2D
MATERIALS
194
MONOLITHIC
INTEGRATION
195
INTEGRATION
WITH
PLASMONIC
WAVEGUIDES
AND
CAVITIES
197
INTEGRATION
WITH
OFF-CHIP
COMPONENTS
199
FLIP-CHIP
INTEGRATION
199
INTEGRATION
WITH
OPTIC
FIBERS
200
SUMMARY
AND
OUTLOOK
202
ACKNOWLEDGMENTS
203
REFERENCES
204
6
INVERSE
DESIGN
FOR
INTEGRATED
PHOTONICS
USING
DEEP
NEURAL
NETWORK
209
KEISUKE
KOJIMA,
TOSHIAKI
KOIKE-AKINO,
YINGHENG
TANG,
AND
YE
WANG
6.1
6.2
6.2.1
6.2.2
6.2.3
6.3
6.4
6.5
INTRODUCTION
209
DEEP
NEURAL
NETWORK
(DNN)
MODELS
210
FORWARD
MODELING
211
INVERSE
MODELING
212
GENERATIVE
MODELING
212
DEEP
LEARNING
FOR
FORWARD
MODELING
TO
PREDICT
OPTICAL
RESPONSE
212
DEEP
LEARNING
FOR
INVERSE
MODELING
TO
CONSTRUCT
DEVICE
TOPOLOGY
217
DEEP
LEARNING
FOR
GENERATIVE
MODELING
TO
PRODUCE
DEVICE
TOPOLOGY
CANDIDATES
220
6.6
6.7
6.7.1
6.7.2
6.7.3
6.7.4
6.7.5
6.7.6
6.7.7
6.8
6.8.1
6.8.2
6.8.3
PHYSICS-INFORMED
NEURAL
NETWORKS
225
NANOPHOTONIC
POWER
SPLITTER
DESIGN
USING
GENERATIVE
MODELING
227
DEVICE
STRUCTURE
228
DEVICE
SIMULATION
PROCEDURE
229
NETWORK
ARCHITECTURE
230
NETWORK
TRAINING
PROCEDURE
231
DEVICE
GENERATION
PERFORMANCE
232
HYPERPARAMETERS
234
ADJOINT
METHOD
VS.
DEEP
LEARNING
234
DEEP
LEARNING
TECHNIQUES
235
CONVOLUTIONAL
NEURAL
NETWORKS
235
TRANSFER
LEARNING
AND
FINE
TUNING
235
AUTOML:
META
LEARNING,
LEARNING
TO
LEARN,
NETWORK
ARCHITECTURE
SEARCH
236
6.9
CONCLUSION
237
REFERENCES
237
CONTENTS
IX
7
DEEP
LEARNING
DRIVEN
DATA
PROCESSING,
MODELING,
AND
INVERSE
DESIGN
FOR
NANOPHOTONICS
245
PETER
R.
WIECHA,
NICHOLAS
J.
DINSDALE,
AND
OTTO
L.
MUSKENS
7.1
7.2
7.2.1
7.2.2
7.3
7.3.1
INTRODUCTION
245
ARTIFICIAL
NEURAL
NETWORKS
AND
DEEP
LEARNING
245
ARTIFICIAL
NEURONS
AND
NEURAL
NETWORKS
246
TRAINING
OF
ARTIFICIAL
NEURAL
NETWORKS
247
ULTRAFAST
PHYSICS
PREDICTIONS
248
SPECIALIZED
PHYSICS
PREDICTORS:
FULLY
CONNECTED
VS.
CONVOLUTIONAL
ANNS
249
7.3.2
7.4
7.4.1
7.4.1.1
7.4.1.2
7.4.2
7.4.3
7.4.3.1
7.4.3.2
7.4.3.3
7.4.3.4
7.5
7.5.1
7.5.2
7.6
GENERALIZED
NANOPHOTONICS PREDICTOR
NETWORK
252
PHOTONICS
INVERSE
DESIGN
255
PREDICTOR
NETWORK
AS
A
SURROGATE
MODEL
FOR
OPTIMIZATION
256
EXAMPLE:
POLARIZATION
CONVERSION
MAXIMIZATION
257
EXAMPLE:
MAXIMIZE
MAGNETIC
NEAR-FIELD
258
DIRECT
INVERSE
DESIGN
NETWORKS
259
OPTIMIZING
INVERSE
DESIGN
PERFORMANCE
260
OPTIMIZING
THE
NETWORK
LAYOUT
262
QUALITY
OF
THE
INITIAL
DATASET
262
ITERATIVE
TRAINING
264
POSTPROCESSING
265
ADVANCED
DATA
PROCESSING
FOR
PHOTONICS
APPLICATIONS
265
OPTICAL
DATA
STORAGE
BELOW
THE
DIFFRACTION
LIMIT
265
SPECKLE
RECONSTRUCTION
FOR
REAL-TIME
HYPERSPECTRAL
IMAGING
267
CONCLUSION
AND
OUTLOOK
269
REFERENCES
270
8
OPTICAL
WAVEGUIDE
OF
LITHIUM
NIOBATE
NANOPHOTONICS
277
YARUB
AL-DOURI
8.1
8.2
8.3
8.4
INTRODUCTION
277
PHOTONICS
LITHIUM
NIOBATE
278
NANOPHOTONIC
LITHIUM
NIOBATE-BASED
OPTICAL
WAVEGUIDE
286
OPTICAL
STUDIES
OF
NANOPHOTONIC
LITHIUM
NIOBATE-BASED
OPTICAL
WAVEGUIDE
287
8.5
8.6
8.7
NANOPHOTONIC
LINBO,
UNDER
STIRRER
TIME
EFFECT
295
NANOPHOTONIC
STUDIES
OF
LINBO
3
UNDER
STIRRER
TIME
EFFECT
297
CONCLUSIONS
304
REFERENCES
305
9
ACTIVE,
TUNABLE,
AND
RECONFIGURABLE
NANOPHOTONICS
313
TREVON
BADLOE,
JAEHYUCK
JANG,
HEONYEONG
JEONG,
MINSU
JEONG,
INKI
KIM,
BYOUNGSU
KO,
JIHAE
LEE,
TAEJUN
LEE,
SEONG-WON
MOON,
DONG
KYO
OH,
YOUNGHWAN
YANG,
GWANHO
YOON,
AND
JUNSUK
RHO
9.1
9.2
INTRODUCTION
313
LIQUID
CRYSTAL-INTEGRATED
TUNABLE
DEVICES
314
INDEX
359
CONTENTS
9.2.1
DEVICES
THAT
MODULATE
POLARIZATION
314
9.2.2
DEVICES
THAT
MODULATE
EFFECTIVE
REFRACTIVE
INDEX
316
9.3
OPTICALLY
TUNABLE
DEVICES
318
9.3.1
DEVICES
THAT
ARE
DEPENDENT
ON
THE
DIRECTION
OF
INCIDENT
LIGHT
318
9.3.2
DEVICES
THAT
DEPEND
ON
WAVELENGTH
319
9.3.3
DEVICES
THAT
DEPEND
ON
POLARIZATION
(SPIN)
321
9.3.4
ORBITAL
ANGULAR
MOMENTUM-DEPENDENT
DEVICES
323
9.4
PHASE
CHANGE
MATERIALS-BASED
RECONFIGURABLE
DEVICES
324
9.4.1
SWITCHABLE
ABSORBERS
324
9.4.2
THERMOCHROMIC
SMART
WINDOWS
327
9.5
MECHANICALLY
TUNABLE
PHOTONIC
DEVICES
329
9.5.1
TUNABLE
DEVICES
THAT
USE
MICRO-ELECTRO-MECHANICAL
SYSTEMS
329
9.5.2
PHOTONIC
DEVICES
THAT
ARE
TUNED
USING
STRAIN
331
9.6
TUNABLE
PHOTONIC
DEVICES
WITH
MATERIAL ENGINEERING
335
9.6.1
BANDGAP
ENGINEERING
FOR
TUNABLE
SOLID-STATE
DEVICES
335
9.6.2
BIOMATERIALS
FOR
TUNABLE
BIOPHOTONIC
DEVICES
339
9.7
ELECTRICALLY
TUNABLE
PHOTONIC
DEVICES
341
ACKNOWLEDGMENTS
346
REFERENCES
346 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author2 | Yu, Peng Xu, Hongxing Wang, Zhiming M. |
| author2_role | edt edt edt |
| author2_variant | p y py h x hx z m w zm zmw |
| author_GND | (DE-588)1082354384 |
| author_facet | Yu, Peng Xu, Hongxing Wang, Zhiming M. |
| building | Verbundindex |
| bvnumber | BV049047892 |
| ctrlnum | (OCoLC)1392142880 (DE-599)DNB1273087526 |
| format | Book |
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| genre | (DE-588)4143413-4 Aufsatzsammlung gnd-content |
| genre_facet | Aufsatzsammlung |
| id | DE-604.BV049047892 |
| illustrated | Illustrated |
| index_date | 2024-07-03T22:20:45Z |
| indexdate | 2024-07-10T09:53:46Z |
| institution | BVB |
| institution_GND | (DE-588)16179388-5 |
| isbn | 9783527349128 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-034310299 |
| oclc_num | 1392142880 |
| open_access_boolean | |
| owner | DE-29T |
| owner_facet | DE-29T |
| physical | xii, 364 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm |
| publishDate | 2023 |
| publishDateSearch | 2023 |
| publishDateSort | 2023 |
| publisher | Wiley-VCH |
| record_format | marc |
| spelling | Integrated nanophotonics platforms, devices, and applications edited by Peng Yu, Hongxing Xu, and Zhiming Wang Weinheim Wiley-VCH [2023] xii, 364 Seiten Illustrationen, Diagramme 24.4 cm x 17 cm txt rdacontent n rdamedia nc rdacarrier Nanophotonik (DE-588)7618094-3 gnd rswk-swf Integrierte Schaltung (DE-588)4027242-4 gnd rswk-swf EE50: Photonik u. Laser Electrical & Electronics Engineering Elektrotechnik u. Elektronik MS50: Optische u. Nichtlineare Optische Materialien Materials Science Materialwissenschaften Nanophotonics Nanophotonik Optical and Non-Linear Optical Materials Optics & Photonics Optik Optik u. Photonik Optische u. Nichtlineare Optische Materialien PH40: Optik u. Photonik Photonics & Lasers Photonik Photonik u. Laser Physics Physik (DE-588)4143413-4 Aufsatzsammlung gnd-content Nanophotonik (DE-588)7618094-3 s Integrierte Schaltung (DE-588)4027242-4 s DE-604 Yu, Peng edt Xu, Hongxing edt Wang, Zhiming M. (DE-588)1082354384 edt Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-527-83302-3 Erscheint auch als Online-Ausgabe, EPUB 978-3-527-83304-7 Erscheint auch als Online-Ausgabe, oBook 978-3-527-83303-0 X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34912-8/ DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034310299&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20221118 DE-101 https://d-nb.info/provenance/plan#vlb |
| spellingShingle | Integrated nanophotonics platforms, devices, and applications Nanophotonik (DE-588)7618094-3 gnd Integrierte Schaltung (DE-588)4027242-4 gnd |
| subject_GND | (DE-588)7618094-3 (DE-588)4027242-4 (DE-588)4143413-4 |
| title | Integrated nanophotonics platforms, devices, and applications |
| title_auth | Integrated nanophotonics platforms, devices, and applications |
| title_exact_search | Integrated nanophotonics platforms, devices, and applications |
| title_exact_search_txtP | Integrated nanophotonics platforms, devices, and applications |
| title_full | Integrated nanophotonics platforms, devices, and applications edited by Peng Yu, Hongxing Xu, and Zhiming Wang |
| title_fullStr | Integrated nanophotonics platforms, devices, and applications edited by Peng Yu, Hongxing Xu, and Zhiming Wang |
| title_full_unstemmed | Integrated nanophotonics platforms, devices, and applications edited by Peng Yu, Hongxing Xu, and Zhiming Wang |
| title_short | Integrated nanophotonics |
| title_sort | integrated nanophotonics platforms devices and applications |
| title_sub | platforms, devices, and applications |
| topic | Nanophotonik (DE-588)7618094-3 gnd Integrierte Schaltung (DE-588)4027242-4 gnd |
| topic_facet | Nanophotonik Integrierte Schaltung Aufsatzsammlung |
| url | http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34912-8/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034310299&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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