Laser Growth and Processing of Photonic Devices

Author:   Nikolaos A Vainos (University of Patras, Greece)
Publisher:   Elsevier Science & Technology
Volume:   27
ISBN:  

9781845699369


Pages:   488
Publication Date:   10 July 2012
Format:   Hardback
Availability:   Manufactured on demand   Availability explained
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Laser Growth and Processing of Photonic Devices


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Overview

The use of lasers in the processing of electronic and photonic material is becoming increasingly widespread, with technological advances reducing costs and increasing both the quality and range of novel devices which can be produced. Laser growth and processing of photonic devices is the first book to review this increasingly important field. Part one investigates laser-induced growth of materials and surface structures, with pulsed laser deposition techniques, the formation of nanocones and the fabrication of periodic photonic microstructures explored in detail. Laser-induced three-dimensional micro- and nano-structuring are the focus of part two. Exploration of multiphoton lithography, processing and fabrication is followed by consideration of laser-based micro- and nano-fabrication, laser-induced soft matter organization and microstructuring, and laser-assisted polymer joining methods. The book concludes in part three with an investigation into laser fabrication and manipulation of photonic structures and devices. Laser seeding and thermal processing of glass with nanoscale resolution, laser-induced refractive index manipulation, and the thermal writing of photonic devices in glass and polymers are all considered. With its distinguished editor and international team of expert contributors, Laser growth and processing of photonic devices is an essential tool for all materials scientists, engineers and researchers in the microelectronics industry.

Full Product Details

Author:   Nikolaos A Vainos (University of Patras, Greece)
Publisher:   Elsevier Science & Technology
Imprint:   Woodhead Publishing Ltd
Volume:   27
Dimensions:   Width: 15.60cm , Height: 2.70cm , Length: 23.40cm
Weight:   0.880kg
ISBN:  

9781845699369


ISBN 10:   184569936
Pages:   488
Publication Date:   10 July 2012
Audience:   College/higher education ,  Postgraduate, Research & Scholarly
Format:   Hardback
Publisher's Status:   Active
Availability:   Manufactured on demand   Availability explained
We will order this item for you from a manufactured on demand supplier.

Table of Contents

Contributor contact details Dedication Woodhead Publishing Series in Electronic and Optical Materials Preface Chapter 1: Laser growth and processing of photonic structures: an overview of fundamentals, interaction phenomena and operations Abstract: 1.1 Laser processing concepts and processes: an introduction 1.2 Laser radiation, propagation and delivery 1.3 Summary of the interactions of laser radiation with condensed matter 1.4 Radiation absorption and energy transfer 1.5 Materials processing phenomena: appraisal of energy dependencies 1.6 Laser-based materials processing for photonics 1.7 Specific laser processing schemes for photonics applications 1.8 A suite of emerging concepts driving future trends 1.9 Acknowledgements Part I: Laser-induced growth of materials and surface structures Chapter 2: Emerging pulsed laser deposition techniques Abstract: 2.1 Current state-of-the-art in pulsed laser deposition (PLD) 2.2 Problems for growth of thick films and designer refractive index profiles 2.3 Multi-beam PLD 2.4 Use of three different targets: combinatorial growth 2.5 Future work in complex PLD geometries 2.6 Conclusions 2.7 Acknowledgements Chapter 3: The formation of nanocones on the surface of semiconductors by laser-induced self-assembly Abstract: 3.1 Introduction 3.2 Experiments and discussion 3.3 Two-stage mechanism of nanocones formation in semiconductors 3.4 Applications in nanoelectronics and optoelectronics 3.5 Conclusions 3.6 Acknowledgements Chapter 4: Fabrication of periodic photonic microstructures by the interference of ultrashort pulse laser beams Abstract: 4.1 Review of periodic photonic devices induced by the interference of ultrashort pulse laser beams 4.2 Theoretical aspects of the interference of ultrashort pulse laser beams 4.3 Microstructures induced by the interference of two femtosecond laser beams 4.4 Microstructures induced by the interference of multiple femtosecond laser beams 4.5 Transfer of periodic microstructures by the interference of femtosecond laser beams 4.6 Conclusions and future trends Part II: Laser-induced three-dimensional micro- and nano-structuring Chapter 5: Multiphoton lithography, processing and fabrication of photonic structures Abstract: 5.1 Introduction to multiphoton lithography 5.2 Principles of multiphoton absorption and lithography 5.3 Materials for multiphoton lithography 5.4 Applications of multiphoton lithography in photonics 5.5 Future prospects for multiphoton lithography in photonics Chapter 6: Laser-based micro- and nano-fabrication of photonic structures Abstract: 6.1 Introduction and motivation 6.2 Fabrication of 2D and 3D photonic micro-structures 6.3 Laser lithography for the fabrication of photonic structures 6.4 Laser lithography based on one-, two- or multiple-photon absorption 6.5 Material modification aspects 6.6 Device design, fabrication and applications 6.7 Conclusions and future trends Chapter 7: Laser-induced soft matter organization and microstructuring of photonic materials Abstract: 7.1 Introduction 7.2 The origin of radiation forces 7.3 Organization of entangled polymers and hybrids by laser radiation 7.4 Organization and microfabrication by radiation forces: an emerging technology 7.5 Conclusions and future prospects 7.6 Acknowledgments 7.8 Appendix Chapter 8: Laser-assisted polymer joining methods for photonic devices Abstract: 8.1 Introduction 8.2 Properties of benzocyclobutene (BCB) polymers for photonic applications 8.3 BCB as a planarization material for fabrication of semiconductor photonic devices 8.4 Laser-assisted polymer bonding for assembly of photonic and microelectromechanical systems (MEMS) devices 8.5 Laser microwelding for assembly of periodic photonic structures 8.6 Conclusions Part III: Laser fabrication and manipulation of photonic structures and devices Chapter 9: Laser seeding and thermal processing of glass with nanoscale resolution Abstract: 9.1 Introduction 9.2 The regeneration process 9.3 Estimating the retention of nanoscale information in regenerated grating structures 9.4 Conclusions 9.5 Acknowledgements Chapter 10: Femtosecond-laser-induced refractive index modifications for photonic device processing Abstract: 10.1 Introduction 10.2 Ultrafast laser interactions with dielectric materials 10.3 Refractive index modification mechanisms 10.4 Photonic device processing 10.5 Photonic devices 10.6 Conclusions Chapter 11: Thermal writing of photonic devices in glass and polymers by femtosecond lasers Abstract: 11.1 Introduction 11.2 Femtosecond laser–material interaction in waveguide writing 11.3 Femtosecond laser waveguide writing in glasses 11.4 Waveguide writing in polymers 11.5 Conclusions 11.6 Future trends Chapter 12: Laser processing of optical fibers: new photosensitivity findings, refractive index engineering and surface structuring Abstract: 12.1 Introduction and historical overview 12.2 Glass photosensitivity using laser beams 12.3 Correlation of underlying photosensitivity mechanisms with refractive index changes 12.4 Types of photosensitivity in optical fibers 12.5 Grating fabrication in standard, germanosilicate optical fibers 12.6 Grating fabrication in standard, all-silica optical fibers 12.7 Grating fabrication in phosphate and fluoride glass fibers 12.8 Microstructured optical fiber (MOF) gratings 12.9 Laser machining of optical fibers 12.10 Future trends and prospects 12.11 Conclusions 12.12 Acknowledgments Index

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Author Information

Nikolaos A. Vainos is Professor and Deputy Chair of the Department of Materials Science at the University of Patras, Greece. The scientific coordinator of over 40 research projects, he has written extensively on optical properties and laser applications.

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