Microwave materials and applications:
Gespeichert in:
| Weitere Verfasser: | , , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Hoboken, NJ
Wiley
2017
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| Schriftenreihe: | Wiley series in materials for electronic & optoelectronic applications
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Klappentext |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | 2 Bände |
| ISBN: | 9781119208525 |
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| 245 | 1 | 0 | |a Microwave materials and applications |c edited by Mailadil T. Sebastian, University of Oulu, Finland, Rick Ubic, Boise State University, ID, US, Heli Jantunen, University of Oulu, Finland |
| 264 | 1 | |a Hoboken, NJ |b Wiley |c 2017 | |
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| 490 | 0 | |a Wiley series in materials for electronic & optoelectronic applications | |
| 500 | |a Includes bibliographical references and index | ||
| 650 | 4 | |a Microwave devices |x Materials | |
| 650 | 4 | |a Dielectrics | |
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Datensatz im Suchindex
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| adam_text | Contents
VOLUME I
H
List of Contributors XV
Series Preface xvii
Preface xix
1. Measurement of Microwave Dielectric Properties and Factors
Affecting Them 1
M.T Sebastian, M.A.S. Silva, and A.S.B. Sombra
1.1 Introduction 1
1.2 Permittivity (er) and quality factor (Q) 2
1.3 Measurement of Microwave Dielectric Properties 7
1.4 Methods of Measurement 8
1.4.1 Hakki and Coleman (Courtney) Method 8
1.4.2 TE01 5 Mode Dielectric Resonator Method 11
1.4.3 Measurement of the Quality Factor by a Strip Line Excited Using
the Cavity Method 14
1.4.4 Whispering Gallery Mode (WGM) Resonators 17
1.4.5 Split Post Dielectric Resonator (SPDR) 18
1.4.6 Cavity Perturbation Method 20
1.4.7 TM0„0 Mode and Re-entrant Cavity Methods 21
1.4.8 TE01 n Mode Cavities 22
1.4.9 Thin Samples and Free-Space Methods 24
1.5 Measurement of EMI Shielding Effectiveness 29
1.5.1 Waveguide Method 29
1.6 Terahertz and Millimeter Wave Measurements 31
1.6.1 Backward Wave Oscillator (BWO) 31
1.6.2 Terahertz Time-Domain Spectroscopy (THz-TDS) 32
1.7 Measurement of Dielectric Properties of Powder Samples 34
1.8 Estimation of Dielectric Loss by Spectroscopic Methods 35
1.9 Factors Affecting Dielectric Loss 39
1.10 Measurement of Temperature Coefficient of Resonant Frequency 41
1.11 Tuning of the Resonant Frequency 42
References 45
vi Contents
2. Modeling of Microwave Dielectric Properties of Composites 53
Marko Tuhkala, Merja Teirikangas, and Jari Juuti
2.1 Introduction 53
2.2 Connectivity 54
2.3 Electrostatic Theory 56
2.3.1 Polarizability 56
2.3.2 Scattering 56
2.3.3 Orientation 57
2.4 Mixing Equations 59
2.4.1 Clausius-Mossotti 60
2.4.2 Maxwell-Garnett 60
2.4.3 Bruggeman Symmetric 63
2.4.4 Bruggeman Non-symmetric 64
2.4.5 Sen Scala-Cohen 64
2.4.6 Coherent Potential 64
2.4.7 Looyenga 65
2.4.8 Lichtenecker 65
2.4.9 Modified Lichtenecker 66
2,4.10 Differential 66
2.4.11 General Mixing Model 67
2.4.12 Effective Medium Theory (EMT) 68
2.4.13 Jayasundere-Smith 69
2.4.14 Vo-Shi 70
2.4.15 Interphase Power Law (IPL) 71
2.5 Effect of Porosity 71
2.5.1 Permittivity 72
2.5.2 Dielectric Losses 73
2.5.3 Dielectric Properties of Powders 74
2.6 Conclusion 77
References 77
3. Perovskites 81
K.P. Surendran and Rick Ubic
3.1 Introduction 81
3.2 Lattice Constant Prediction 83
3.3 Tolerance Factor 84
3.4 Octahedral Tilting 86
3.5 Simple Perovskites 87
3.5.1 LnA103 Type Materials 87
3.5.2 Ag(Nb1.;cTa;c)03 Type Materials 88
3.5.3 Ca-Based Perovskites 89
3.6 Cation Ordering 89
3.6.1 1:1 Ordered Perovskites 90
3.6.2 1:2 Ordering 103
Contents vi i
3.6.3 1:3 Ordering 130
3.6.4 1:2:1 Ordering 132
3.7 Cation Deficient Perovskites 133
3.8 Summary 135
References 136
4. High Permittivity Materials 149
Rick Uhic9 G. Subodh, and M.T Sebastian
4.1 Introduction 149
4.2 The Ba0-Ln203-Ti02 System 149
4.2.1 Crystal Structure of Ba6_3xLn8+2xTi18054 151
4.2.2 Tolerance Factor and Its Effect on the Temperature Coefficient 154
4.2.3 Microwave Dielectric Properties of Ba0-Ln203~Ti02 System 155
4.3 The Effect of Processing Parameters on Electrical Properties 162
4.4 Titania 164
4.5 Sr, .з^Се/ПОз Ceramics 166
4.5.1 Crystal Structure of Sr^3x/2CexT 03 System 166
4.5.2 Microstructure and Dielectric Properties of SCT ceramics 172
4.5.3 (Sr0 ^..дРЬ^Сео 167)Ti03 173
4.6 РЬ/г(КЬЬлТа,)05+л 174
4.6.1 Pb Nb205+/l (1.5 n 2) 176
4.6.2 Pb2Nb202 179
4.6.3 Pb-Rich Phases (n 2) 181
4.6.4 Doping Studies 182
4.6.5 Microwave Properties 182
4.7 (Pb1_xCa;c)(Fe1/2B1/2)03 [B = Nb, Та] 185
4.8 Ag(Nb, _JCTaJC)03 187
4.9 Summary 190
References 190
5. Millimeter-Wave Materials 203
Hitoshi Ohsato
5.1 Introduction: New Frontiers of Millimeter-Wave Dielectrics 203
5.2 Dielectric Properties for Millimeter Wave 207
5.2.1 Quality Factor Q 207
5.2.2 Dielectric Constant e2 208
5.2.3 Temperature Coefficient of Resonant Frequency 208
5.3 Candidates of Millimeter-Wave Dielectrics 209
5.4 Specialized Study 212
5.4.1 Forsterite 212
5.4.2 Willemite 222
5.4.3 Indialite/Cordierite Glass Ceramics 226
5.4.4 Other Silicates 232
5.4.5 Substituted Ge for Si 236
viii Contents
5.4.6 Corundum 242
5.4.7 Spinel 250
5.4.8 Borate, Phosphate, and Vanadate 255
Acknowledgments 259
References 259
6· Other Important Materials 267
M. T Sebastian and R. C. Pullar
6.1 Spinel 267
6.1.1 ZnAl204 267
6.1.2 MgAl204 277
6.1.3 A2Ti04 (A = Mg, Zn) 280
6.2 Li2ATi308 (A = Mg, Zn) Ceramics 280
6.2.1 Effect of Glass Addition in Li2ATi3Og (A = Mg, Zn) 284
6.3 Li2Zn3Ti4012 289
6.4 Apatites 290
6.4.1 A2RE8(Si04)602 ceramics 292
6.4.2 (Ca, Ba)2RE8Si6026 (RE = Rare Earths) 295
6.4.3 Ca2+^RE8_Y(Si04)6_x(P04)x02 (RE = Rare Earths) 297
6.4.4 Effect of Isovalent Substitutions in Ca4La6(Si04)4(P04)202 300
6.4.5 LiRE9(Si04)602 (RE = Rare Earths) 302
6.5 Alumina 303
6.6 Zirconium Tin Titanate 306
6.7 Dielectric Materials in the BaO֊Ti02 System 314
6.7.1 BaTi409 315
6.7.2 BaTi5On 316
6.7.3 Ba2Ti9O20 316
6.8 Columbite Niobates (M2+Nb206) 318
6.8.1 Synthesis of Columbite Ceramics 320
6.8.2 Microwave Dielectric Properties of Columbites 322
6.8.3 Microwave Properties of Solid Solutions and Non-stoichiometric
Columbites 325
Acknowledgments 327
References 328
7. Microwave Dielectric Properties of Glasses and Bulk Glass Ceramics 345
Martin Letz
7.1 Glasses 345
7.1.1 Silica Glass, a Special Glass System 346
7.1.2 Multicomponent Glasses 347
7.1.3 Solder Glasses, Sealing Glasses, Glass Joins, Passivation Glasses,
and Glass Powder Additives 349
7.2 Bulk Glass Ceramics 349
7.2.1 The BiNb04 System 351
7.2.2 The La4Ti9024 and La2Ti2Si09 System 351
Contents IX
7.2.3 Properties of Glass Ceramics from the Lithium Aluminum Silicate
System 352
7.2.4 Photosensitive Crystallizing Glasses 352
References 353
8. High Temperature Cofired Ceramic (HTCC), Low Temperature Cofired
Ceramic (LTCC), and Ultralow Temperature Cofired Ceramic (ULTCC)
Materials 355
M. T. Sebastian and Heli Jantimen
8.1 High Temperature Cofired Ceramics (HTCC) 355
8.1.1 Introduction 355
8.2 HTCC Alumina 357
8.3 Aluminium Nitride HTCC 359
8.4 ZrSi04 361
8.5 Low Temperature Cofired Ceramics (LTCC) 366
8.5.1 Introduction 366
8.5.2 Important Characteristics of LTCC 367
8.5.3 Glass-Ceramic Composites 370
8.5.4 Microwave Dielectric Properties of Glasses 373
8.5.5 LTCC Materials and Their Properties 374
8.5.6 Constrained Sintering 390
8.6 Ultralow Temperature Cofired Ceramics (ULTCC) 395
8.6.1 Introduction 395
8.6.2 Ultralow Temperature Cofireable Ceramics (ULTCC Category II) 395
8.6.3 ULTCC Category I 406
8.7 Discussion and Conclusion 408
References 411
Index il
VOLUME II
List of Contributors xv
Series Preface xvii
Preface xix
9. Voltage Thnable Microwave Dielectrics for Frequency and Phase
Agile Devices 427
K. Sudheendran and K. C. James Raju
9.1 Introduction to Voltage Tunable Materials 427
9.2 Different Classes of Voltage Tunable Materials 428
9.2.1 Ferroelectric-Based Voltage Tunable Materials 428
9.2.2 Non-ferroelectric Voltage Tunable Materials 428
9.2.3 Multiferroic Voltage Tunable Materials 430
x Contents
9.3 Importance of Voltage Tunable Materials in Frequency and Phase
Agile Devices 432
9.3.1 Varactors in Frequency and Phase Agile Devices 432
9.4 Growth Techniques for Voltage Tunable Thin Films
on Various Substrates 434
9.4.1 Pulsed Laser Deposition Technique 434
9.4.2 Sputter Deposition Techniques 435
9.4.3 Chemical solution deposition technique (CSD) 436
9.5 Characterization techniques 437
9.5.1 Low-Frequency Measurement of Ferroelectric Thin Films 438
9.6 High-Frequency Characterization 438
9.6.1 Modified Cavity Perturbation Technique 439
9.6.2 Calibration Comparison Technique 441
9.6.3 Extraction of the Conductor Loss 443
9.6.4 Tunability Measurement 446
9.6.5 Reflection Measurements 446
9.7 Design and Realization Aspects of Varactors Using Tunable Materials 449
9.7.1 Planar and Parallel Plate Structures 449
9.7.2 Realization and Characterization of the Varactors 451
9.8 Conclusions 454
Acknowledgment 454
References 454
10. Dielectric Inks 457
J. Varghese and M. T Sebastian
10.1 Introduction 457
10.2 Methodology 461
10.2.1 Formulation of Printing Inks 461
10.3 Dielectric Inks and Their Properties 462
10.3.1 Preliminary Treatment of Ceramic Particles 462
10.3.2 Raw Materials Selection and Optimization for Screen
Printable Ink 465
10.3.3 Rheology of Dielectric Inks 466
10.3.4 Microstructure and Surface Roughness of Printed Layers 467
10.3.5 Dielectric Properties of Printed Layers 470
10.4 Polymer-Based Dielectric Inks, Properties and Applications 473
10.5 Commercially Available Dielectric Inks, Properties and Applications 475
10.6 Conclusion 475
Acknowledgment 477
References 477
11. Polymer-Ceramic Composites for Microwave Applications 481
R. Ratheesh and M.T, Sebastian
11.1 Introduction: Microwave Substrates 481
11.2 Types of Polymer-Ceramic Composites 483
Contents xi
11.3 Thermoplastic Matrix and Composites 485
11.3.1 Poly(tertrafluoroethylene) 485
11.4 PTFE/Ceramic Composites 489
11.4.1 Preparation and Dielectric Properties 489
11.4.2 Temperature Variation of Relative Permittivity 496
11.4.3 Moisture Absorption Characteristics 498
11.4.4 Coefficient of Thermal Expansion 499
11.4.5 Mechanical Properties 501
11.5 Polyethylene-Ceramic Composites 502
11.6 Polystyrene-Ceramic Composites 507
11.7 Epoxy-Ceramic Composites 510
11.8 Liquid Crystal Polymer (LCP) 513
11.9 Thermal Conductivity 514
11.9.1 Geometric Mean Model 515
11.9.2 Effective Medium Theory (EMT) Model 515
11.9.3 Cheng-Vachon Model 515
11.9.4 Maxwell-Eucken Model 516
11.9.5 Nielson Model 516
11.9.6 Agari-Uno Model 516
11.10 Polymer Nanoceramic Composites 518
11.11 Ultrawideband Antenna Design Using Copper Cladded Ceramic-Filled
PTFE Substrates 521
11.11.1 Antenna Configuration 522
11.12 Conclusion 526
References 527
12. Rubber-Ceramic Composites 537
M.T. Sebastian and L.K, Namitha
12.1 Introduction 537
12.2 Silicone Rubber 539
12.2.1 Introduction 539
12.2.2 Composite Preparation 541
12.2.3 Dielectric Properties 543
12.2.4 Mechanical Properties 549
12.2.5 Coefficient of Thermal Expansion (CTE) 550
12.2.6 Thermal Conductivity 550
12.2.7 Moisture Absorption of Composites 552
12.3 Butyl Rubber (BR) 553
12.3.1 Introduction 553
12.3.2 Preparation of Butyl Rubber (BR)-Ceramic Composites 554
12.3.3 Dielectric Properties 550
12.3.4 Bending 561
12.3.5 Thermal Conductivity 563
12.3.6 Mechanical Properties 564
xii Contents
12.3.7 Moisture Absorption of Composites 565
12.3.8 Coefficient of Thermal Expansion (CTE) 566
12.4 Fabrication of Flexible Microstrip Antenna 567
12.5 Conclusions 570
References 570
13. Designing of Materials for EMI Shielding Applications 575
Swati Varshney and S.K. Dhawan
13.1 Electromagnetic Shielding and Microwave Absorption Mechanism 577
13.2 Shielding Effectiveness (SE) 577
13.3 Measurement of Shielding Effectiveness 578
13.4 Electromagnetic Shielding Materials 581
13.5 New Insight into Designing of Materials for Microwave Shielding 583
13.6 Nanostructured Graphene/Fe304 Incorporated Polyaniline for EMI
Shielding 584
13.7 Designing of Polypyrrole-y֊Fe203 Nanocomposite Wave Absorber 586
13.7.1 Magnetic Measurements 586
13.7.2 Microwave Absorption Investigations 587
13.7.3 Dielectric and Permeability Studies 588
13.8 Designing of Conducting Polymer Composite by Incorporating
Ferrofluid 590
13.9 Designing of Polypyrrole-Aqueous Ferrofluid (PFF) Nanocomposite
Microwave Absorber 593
13.9.1 Magnetic Measurements 593
13.9.2 Microwave Absorption Investigations 594
13.9.3 Dielectric and Permeability Studies 596
13.10 Conclusions 596
Acknowledgments 598
References 598
14. Microwave Ferrites and Applications 603
Vincent G. Harris
14.1 Introduction 603
14.2 Structure, chemistry, magnetism, and gyromagnetic properties 604
14.3 Ferrite Materials Processing for Microwave Applications 611
14.3.1 Ferrite Processing as Bulk Polycrystalline Substrates 612
14.3.2 Thin-Film Processing 612
14.3.3 Thick-Film Processing of Ferrites 617
14.4 Semiconductor Integration of Ferrite Thin and Thick Films for MIC
Development 620
14.4.1 Selection of Semiconductor Substrate Materials 621
14.4.2 Ferrite Film Growth on Semiconductor Substrates 622
14.5 Ferrite-Based Microwave Device Development 628
14.5.1 Monolithic Integrated Circuits (MICs) 629
14.5.2 Microwave Materials Property Needs 630
Contents xiii
14.5.3 Circulators and Isolators 632
14.5.4 Phase Shifters 635
14.5.5 Filters 639
14.6 Outlook 642
References 643
15. Applications of Microwave Dielectrics 653
Heike Bartsch, Alexander Schulz, Jens Müller, Alexander Ebert, Steffen Spira,
Frank Wollenschlager, and Matthias Hein
15.1 General Requirements for Microwave Applications 653
15.2 LTCC Microwave Components and Materials 654
15.2.1 Conductor Patterning Technologies 654
15.2.2 Transmission Lines and Transitions 656
15.2.3 Lumped Passive Integrated Components 659
15.2.4 Integrated Functional Materials for Passives 663
15.3 LTCC Application Examples 666
15.3.1 Power Dividers 666
15.3.2 A 60 GHz Stripline Parallel Coupled Bandpass Filter 667
15.3.3 Integrated Antennas 671
15.3.4 Microwave Modules 674
References 676
16. Applications of Dielectric Resonators 683
P. Mohanan and S. Mridula
16.1 Introduction 683
16.2 Dielectric Resonator Antenna (DRA) 684
16.2.1 Excitation Techniques 686
16.2.2 Rectangular Dielectric Resonator Antenna 688
16.2.3 Resonant Modes of the DRA 693
16.2.4 Cylindrical DRA 696
16.2.5 Hemispherical DRA 696
16.3 Applications of Dielectric Resonator in Microwave Oscillators 698
16.3.1 Diode Oscillators 699
16.3.2 Transistor Oscillators 699
16.3.3 State of the Art DROs 702
16.4 Application of Dielectric Resonators in Microwave Filters 703
16.4.1 Dielectric Resonator Bandpass Filters 704
16.4.2 Tunable Dielectric Resonator Filters 706
16.4.3 State of the Art DR Filters 709
References 710
Appendix: List of Low-Loss Ceramic Dielectric Materials and
Their Properties 715
M. T Sebastian
Index il
Series Editors
Arthur Willoughby University of Southampton, Southampton, UK
Peter Capper formerly of SELEX Galileo Infrared Ltd, Southampton, UK
Safa Kasap University of Saskatchewan, Saskatoon, Canada
a)
Microwave
Materials and
Applications
Edited by
M. T. Sebastian Faculty of Information Technology
and Electrical Engineering, University of Oulu, Finland
Rick Ubic Micron School of Materials Science
and Engineering, Boise State University; USA
Heli Jantunen Faculty of Information Technology
and Electrical Engineering, University of Oulu, Finland
The recent rapid progress in wireless telecommunication, including the Internet of Things, fifth
generation wireless systems, satellite broadcasting, and intelligent transport systems has increased
the need for low-loss dielectric materials and modern fabrication techniques. These materials have
excellent electrical, dielectric, and thermal properties and have enormous potential, especially in
wireless communication, flexible electronics, and printed electronics.
Microwave Materials and Applications discusses the methods commonly employed for measuring
microwave dielectric properties, the various attempts reported to solve problems of materials
chemistry and crystal structure, doping, substitution, and composite formation, highlighting the
processing techniques, morphology influences, and applications of microwave materials whilst
summarizing many of the recent technical research accomplishments in the area of microwave
dielectrics and applications.
Chapters examine:
• Oxide ceramics for dielectric resonators and substrates
• HTCC, LTCC, and ULTCC tapes for substrates
• Polymer ceramic composites for printed circuit boards
• Elastomer-Ceramic composites for flexible electronics
• Dielectric inks
• EMI shielding materials
• Microwave ferrites
A comprehensive Appendix presents the fundamental properties for more than 4000 low-loss
dielectric ceramics, tneir composition, crystal structure, and tneir microwave dielectric properties.
Microwave Materials and Applications presents a comprehensive view of all aspects of microwave
materials and applications, making it useful for scientists, industrialists, engineers, and students
working on current and emerging applications of wireless communications and consumer electronics.
Cover Design: Wiley
Cover Image: © Cover image courtesy of the editor
www.wiiey.com
ISBN 978-M19-20852-5
Wiley
2 I Also available
___I as an »book
9
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| author2 | Sebastian, Mailadil T. 1952- Ubic, Rick Jantunen, Heli |
| author2_role | edt edt edt |
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| author_GND | (DE-588)135930804 |
| author_facet | Sebastian, Mailadil T. 1952- Ubic, Rick Jantunen, Heli |
| building | Verbundindex |
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| callnumber-first | T - Technology |
| callnumber-label | TK7876 |
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| dewey-hundreds | 600 - Technology (Applied sciences) |
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| dewey-search | 621.381/30284 |
| dewey-sort | 3621.381 530284 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
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| id | DE-604.BV044230307 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-10T07:47:13Z |
| institution | BVB |
| isbn | 9781119208525 |
| language | English |
| lccn | 016052142 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-029635979 |
| open_access_boolean | |
| physical | 2 Bände |
| publishDate | 2017 |
| publishDateSearch | 2017 |
| publishDateSort | 2017 |
| publisher | Wiley |
| record_format | marc |
| series2 | Wiley series in materials for electronic & optoelectronic applications |
| spelling | Microwave materials and applications edited by Mailadil T. Sebastian, University of Oulu, Finland, Rick Ubic, Boise State University, ID, US, Heli Jantunen, University of Oulu, Finland Hoboken, NJ Wiley 2017 2 Bände txt rdacontent n rdamedia nc rdacarrier Wiley series in materials for electronic & optoelectronic applications Includes bibliographical references and index Microwave devices Materials Dielectrics Mikrowellenmesstechnik (DE-588)4169884-8 gnd rswk-swf Werkstoff (DE-588)4065579-9 gnd rswk-swf Mikrowellentechnik (DE-588)4131042-1 gnd rswk-swf Dielektrikum (DE-588)4149716-8 gnd rswk-swf Mikrowellentechnik (DE-588)4131042-1 s Werkstoff (DE-588)4065579-9 s Mikrowellenmesstechnik (DE-588)4169884-8 s Dielektrikum (DE-588)4149716-8 s DE-604 Sebastian, Mailadil T. 1952- (DE-588)135930804 edt Ubic, Rick edt Jantunen, Heli edt Erscheint auch als Online-Ausgabe, EPUB 978-1-119-20855-6 Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029635979&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029635979&sequence=000002&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext |
| spellingShingle | Microwave materials and applications Microwave devices Materials Dielectrics Mikrowellenmesstechnik (DE-588)4169884-8 gnd Werkstoff (DE-588)4065579-9 gnd Mikrowellentechnik (DE-588)4131042-1 gnd Dielektrikum (DE-588)4149716-8 gnd |
| subject_GND | (DE-588)4169884-8 (DE-588)4065579-9 (DE-588)4131042-1 (DE-588)4149716-8 |
| title | Microwave materials and applications |
| title_auth | Microwave materials and applications |
| title_exact_search | Microwave materials and applications |
| title_full | Microwave materials and applications edited by Mailadil T. Sebastian, University of Oulu, Finland, Rick Ubic, Boise State University, ID, US, Heli Jantunen, University of Oulu, Finland |
| title_fullStr | Microwave materials and applications edited by Mailadil T. Sebastian, University of Oulu, Finland, Rick Ubic, Boise State University, ID, US, Heli Jantunen, University of Oulu, Finland |
| title_full_unstemmed | Microwave materials and applications edited by Mailadil T. Sebastian, University of Oulu, Finland, Rick Ubic, Boise State University, ID, US, Heli Jantunen, University of Oulu, Finland |
| title_short | Microwave materials and applications |
| title_sort | microwave materials and applications |
| topic | Microwave devices Materials Dielectrics Mikrowellenmesstechnik (DE-588)4169884-8 gnd Werkstoff (DE-588)4065579-9 gnd Mikrowellentechnik (DE-588)4131042-1 gnd Dielektrikum (DE-588)4149716-8 gnd |
| topic_facet | Microwave devices Materials Dielectrics Mikrowellenmesstechnik Werkstoff Mikrowellentechnik Dielektrikum |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029635979&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029635979&sequence=000002&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT sebastianmailadilt microwavematerialsandapplications AT ubicrick microwavematerialsandapplications AT jantunenheli microwavematerialsandapplications |