Conferences related to Optical waveguides

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2018 International Semiconductor Laser Conference (ISLC)

The International Semiconductor Laser Conference has a long tradition as the leadinginternational conference where researchers and engineers from all over the world meet to shareand discuss the latest developments in semiconductor lasers, amplifiers and LEDs. The 25thInternational Semiconductor Laser Conference will be held in Kobe Japan from 12- 15September 2016. The conference will include both oral and poster sessions of contributed andinvited papers, as well as a plenary session comprising reviews on a number of important andtimely topics. A rump session will feature special topics of current interest for discussion in amore relaxed and open atmosphere. In addition, attendees will be able to participate inworkshops on current hot topics during the first day of the conference. Technical results on allaspects of semiconductor lasers, amplifiers, LEDs and integrated devices, from basic physics ofnew materials and structures to new and improved device concepts are covered.

  • 2016 International Semiconductor Laser Conference (ISLC)

    The International Semiconductor Laser Conference has a long tradition as the leading international conference where researchers and engineers from all over the world meet to share and discuss the latest developments in semiconductor lasers, amplifiers and LEDs. The 25th International Semiconductor Laser Conference will be held in Kobe Japan from 12- 15 September 2016. The conference will include both oral and poster sessions of contributed and invited papers, as well as a plenary session comprising reviews on a number of important and timely topics. A rump session will feature special topics of current interest for discussion in a more relaxed and open atmosphere. In addition, attendees will be able to participate in workshops on current hot topics during the first day of the conference. Technical results on all aspects of semiconductor lasers, amplifiers, LEDs and integrated devices, from basic physics of new materials and structures to new and improved device concepts are covered.

  • 2014 International Semiconductor Laser Conference (ISLC)

    The IEEE International Semiconductor Laser Conference (ISLC) has a long tradition as the leading international conference where researchers and engineers from all over the world meet to share and discuss the latest developments in semiconductor lasers, amplifiers and LEDs. The 24th IEEE International Semiconductor Laser Conference will be held at the Melia Palas Atenea Hotel on the seafront in Palma on the beautiful island of Mallorca in the Mediterranean from 7 - 10 September 2014. The conference will include both oral and poster sessions of contributed and invited papers, as well as a plenary session comprising reviews on a number of important and timely topics. A rump session will feature special topics of current interest for discussion in a more relaxed and open atmosphere. In addition, attendees will be able to participate in workshops on current hot topics during the first day of the conference. Technical results on all aspects of semiconductor lasers, amplifiers, LEDs and integ

  • 2012 IEEE 23rd International Semiconductor Laser Conference (ISLC)

    The IEEE International Semiconductor Laser Conference (ISLC) has a long tradition as the leading international conference where researchers and engineers from all over the world meet to share and discuss the most recent developments in semiconductor lasers, amplifiers and LEDs. The 23rd IEEE International Semiconductor Laser Conference will be held at the San Diego Mission Valley Marriott, San Diego, California from 7-10 October 2012.

  • 2010 IEEE 22nd International Semiconductor Laser Conference (ISLC)

    The 22 nd IEEE International Semiconductor Laser Conference will be held at Ana Hotel Kyoto in Kyoto, Japan on 26-30 September, 2010. This biannual meeting has a long tradition of being the primary forum for the dissemination of the most recent scientific and technical achievements in the field of semiconductor lasers and related technologies. The conference will include oral and poster sessions of contributed papers, an invited session comprising reviews in a number of topics of current importance, and a r

  • 2008 IEEE 21st International Semiconductor Laser Conference (ISLC)

  • 2006 IEEE 20th International Semiconductor Laser Conference (ISLC)

  • 2004 IEEE 19th International Semiconductor Laser Conference (ISLC)

  • 2002 IEEE 18th International Semiconductor Laser Conference (ISLC)

  • 2000 IEEE 17th International Semiconductor Laser Conference (ISLC)

  • 1996 IEEE 15th International Semiconductor Laser Conference (ISLC)


2017 19th International Conference on Transparent Optical Networks (ICTON)

ICTON addresses applications of transparent and all optical technologies in telecommunication networks, systems, and components. ICTON topics are well balanced between basic optics and network engineering. Interactions between those two groups of professionals are a valuable merit of conference. ICTON combines high level invited talks with carefully selected regular submissions.


2017 22nd Microoptics Conference (MOC)

MOC2017 covers micro optics technologies used in optical communications, optical interconnect, optoelectronic devices, optical sensing and prosessing, displays and lighting.

  • 2015 20th Microoptics Conference (MOC)

    ObjectiveThe MOC'15 is intended to provide a central forum for an update and review of scientific and technical information covering a wide range of microoptics field from fundamental researches to systems and applications.CategoryThe category of the conference covers the following subjects of microoptics;1. Theory, Modeling, and Design2. Materials and Fabrication3. Measurement and Sensing4. Passive Devices5. Dynamic and Functional Devices6. EO/OE and Active Devices7. Integration, Packaging, and Si Photonics8. System and Design ConceptionApplication FieldThe 20th Microoptics Conference covers microoptics technologies in the following major topical fields;A. Optical CommunicationsB. Optical InterconnectsC. Optoelectronic EquipmentD. Optical Sensing and ProcessingE. Displays and LightingF. New Applications and Emerging Technologies

  • 2013 18th Microoptics Conference (MOC)

    The conference covers microoptics technologies in the major topical fields; optical communications; optical cross connects; LAN, FTTH. optical interconnects; chip/board/system. optical storages; optical heads, disks, near-field recording. optoelectronic equipment; printers, image sensors, digital cameras. optical sensing and processing. displays and lighting; micromirror,laser/LED displays, solid state lighting. new applications; enviromental and energy optics, nano-photonics, Quantum systems, Next generation and intelligent microoptics,etc.

  • 2011 17th Microoptics Conference (MOC '11)

    The Conference covers microoptics technologies in the major topical fields; Optical Communications Optical cross connects Optical Interconnects Optical Storages; Optoelectronic Equipment; Optical Sensing and Processing; Image recognition, Physical measurements, Medical sensing. Displays and Lighting; Laser/LED displays, lluminations. Environmental and Energy optics, Nano-photonics, Quantum systems, Next generation and Intelligent microoptics, etc.


2017 25th Telecommunication Forum (TELFOR)

ScopeTELFOR intends to consider important scientific, engineering, professional, social, economical and legal aspects of Telecommunications and Information Technology. The work of TELFOR is organized through plenary and special sessions, authors regular and student paper sessions, invited papers, lectures, seminats, workshops, technical, informative and commercial presentations, exhibitions, ...

  • 2016 24th Telecommunications Forum (TELFOR)

    TELFOR intends to consider important scientific, engineering, professional, social, economical and legal aspects of Telecommunications and Information Technology. The work of TELFOR is organized through plenary and special sessions, authors regular and student paper sessions, invited papers, lectures, seminars, workshops, technical, informative and commercial presentations, exhibitions, ...

  • 2015 23rd Telecommunications Forum Telfor (TELFOR)

    TELFOR has the purpose to consider important scientific, engineering, professional, social, economical and legal aspects of Telecommunications and Information Technology. The work of TELFOR is organized through plenary sessions, invited papers, lectures, regular authors and students paper sessions, tutorials, seminars, workshops, technical, information and commercial presentations, exhibitions, etc.

  • 2014 22nd Telecommunications Forum Telfor (TELFOR)

    TELFOR has the purpose to consider important scientific, engineering, professional, social, economical and legal aspects of Telecommunications and Information Technology. The work of TELFOR is organized through plenary sessions, invited papers, presentations, lectures, regular authors' and students' sessions, tutorial, seminars, workshops, technical and commercial presentations, exhibitions, etc.

  • 2013 21st Telecommunications Forum Telfor (TELFOR)

    TELFOR has the purpose to consider important scientific, engineering, professional, social, economical and legal aspects of Telecommunications and Information Technology. The work of TELFOR is organized through plenary sessions, invited papers, presentations, lectures, regular authors' and students' sessions, tutorial, seminars, workshops, technical and commercial presentations, exhibitions, etc.

  • 2012 20th Telecommunications Forum Telfor (TELFOR)

    TELFOR has the purpose to consider important scientific, engineering, professional, social, economical and legal aspects of Telecommunications and Information Technology. The work of TELFOR is organized through plenary sessions, invited papers, presentations, lectures, regular authors' and students' sessions, tutorial, seminars, workshops, technical and commercial presentations, exhibitions, etc.

  • 2011 19th Telecommunications Forum Telfor (TELFOR)

    TELFOR has the purpose to consider important scientific, engineering, professional, social, economical and legal aspects of Telecommunications and Information Technology. The work of TELFOR is organized through plenary sessions, invited papers presentations, lectures, regular authors' and students' sessions, tutorials, seminars, workshops, technical and commercial presentations, exhibitions, etc.


2017 42nd International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz)

Infrared, Millimeter-Wave and Terahertz Science, Technology and Applications


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Periodicals related to Optical waveguides

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Advanced Packaging, IEEE Transactions on

The IEEE Transactions on Advanced Packaging has its focus on the modeling, design, and analysis of advanced electronic, photonic, sensors, and MEMS packaging.


Antennas and Propagation, IEEE Transactions on

Experimental and theoretical advances in antennas including design and development, and in the propagation of electromagnetic waves including scattering, diffraction and interaction with continuous media; and applications pertinent to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques.


Electron Devices, IEEE Transactions on

Publishes original and significant contributions relating to the theory, design, performance and reliability of electron devices, including optoelectronics devices, nanoscale devices, solid-state devices, integrated electronic devices, energy sources, power devices, displays, sensors, electro-mechanical devices, quantum devices and electron tubes.


Electronics Packaging Manufacturing, IEEE Transactions on

Design for manufacturability, cost and process modeling, process control and automation, factory analysis and improvement, information systems, statistical methods, environmentally-friendly processing, and computer-integrated manufacturing for the production of electronic assemblies, products, and systems.


Latin America Transactions, IEEE (Revista IEEE America Latina)

The IEEE Region 9 is releasing the IEEE Latin America Transactions to enable the publication of non-published and technically excellent papers from Latin American engineers, in Spanish or Portuguese languages. Engineers and researchers from Portugal and Spain (and others countries with the same language) are also very welcome to submit their proposals.


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Most published Xplore authors for Optical waveguides

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Xplore Articles related to Optical waveguides

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A new open-hole buried heterostructure process for the fabrication of photonic integrated circuits

Y. Sun; X. M. Ji; Z. Chen; J. Z. Yan; J. X. Cai; M. Raj; F. -S. Choa The 16th Annual Meeting of the IEEE Lasers and Electro-Optics Society, 2003. LEOS 2003., 2003

We have successfully fabricated several batches of open-hole buried heterostructure (BH) lasers using self-align technique with a hole of about 3 μm opening. This new processing technology have in the active region, a traditional buried heterostructure (BH) with semiinsulating InP which works as a current block material. While in the passive region, the semiinsulating InP is the waveguide cladding material. ...


Photonic device fabrication inside transparent materials by tailored femtosecond laser processing

M. Kamata; M. Obara The 16th Annual Meeting of the IEEE Lasers and Electro-Optics Society, 2003. LEOS 2003., 2003

In this paper, we report on the photonic device fabrication inside silica glasses by loosely focused fs laser under the conditions of incident pulsewidth of 150 fs, incident energy of 15 μJ and effective NA of 0.007 and laser irradiation time of 10 min for each line. Diffraction gratings of 10 μm period and waveguide splitters were fabricated by fs ...


Resonant waveguide-grating filters incorporating first-order feedback gratings

D. Shin; S. J. Kim; R. Magnusson Technical Digest. Summaries of papers presented at the Quantum Electronics and Laser Science Conference. Postconference Technical Digest (IEEE Cat. No.01CH37172), 2001

Summary form only given. Resonant waveguide-grating filters are of interest for a range of potential applications (Wang and Magnusson, 1993; Shin et al, 1998). Although such filters exhibit high reflectance under a plane wave incidence, reflectance reduction and spatial modification of the beam profile occur under a practical finite beam illumination. This stems from the narrow angular linewidth of the ...


A New Approach to Dispersion Analysis of Graded Index Optical Fibers

H. J. Carlin; H. Zmuda 1985 IEEE MTT-S International Microwave Symposium Digest, 1985

The dispersion characteristics of graded index optical fiber are studied using a transverse transmission line circuit representation. For round fibers new approximations have been developed which significantly simplifies the analysis. An interesting perspective as to the physical mechanisms underlying the dispersion characteristics of such fibers result from circuit theoretic considerations.


Polarization Beam Splitter With Different Core Widths and Its Application to Dual-Polarization Optical Hybrid

Yasuaki Hashizume; Takashi Goh; Yasuyuki Inoue; Kiichi Hamamoto; Mikitaka Itoh Journal of Lightwave Technology, 2015

We investigated the core-width dependence of the birefringence of silica-based waveguides with different relative refractive index differences (Δ), namely a 0.75%-Δ GeO2-doped waveguide and a 5%-Δ Ta2O5-doped waveguide. We revealed that the birefringence of the 0.75%-Δ GeO2-doped waveguide is almost the same as the stress-induced birefringence and that the 5%-Δ Ta2O5-doped waveguide has a large geometrical birefringence. By utilizing the ...


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Educational Resources on Optical waveguides

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eLearning

A new open-hole buried heterostructure process for the fabrication of photonic integrated circuits

Y. Sun; X. M. Ji; Z. Chen; J. Z. Yan; J. X. Cai; M. Raj; F. -S. Choa The 16th Annual Meeting of the IEEE Lasers and Electro-Optics Society, 2003. LEOS 2003., 2003

We have successfully fabricated several batches of open-hole buried heterostructure (BH) lasers using self-align technique with a hole of about 3 μm opening. This new processing technology have in the active region, a traditional buried heterostructure (BH) with semiinsulating InP which works as a current block material. While in the passive region, the semiinsulating InP is the waveguide cladding material. ...


Photonic device fabrication inside transparent materials by tailored femtosecond laser processing

M. Kamata; M. Obara The 16th Annual Meeting of the IEEE Lasers and Electro-Optics Society, 2003. LEOS 2003., 2003

In this paper, we report on the photonic device fabrication inside silica glasses by loosely focused fs laser under the conditions of incident pulsewidth of 150 fs, incident energy of 15 μJ and effective NA of 0.007 and laser irradiation time of 10 min for each line. Diffraction gratings of 10 μm period and waveguide splitters were fabricated by fs ...


Resonant waveguide-grating filters incorporating first-order feedback gratings

D. Shin; S. J. Kim; R. Magnusson Technical Digest. Summaries of papers presented at the Quantum Electronics and Laser Science Conference. Postconference Technical Digest (IEEE Cat. No.01CH37172), 2001

Summary form only given. Resonant waveguide-grating filters are of interest for a range of potential applications (Wang and Magnusson, 1993; Shin et al, 1998). Although such filters exhibit high reflectance under a plane wave incidence, reflectance reduction and spatial modification of the beam profile occur under a practical finite beam illumination. This stems from the narrow angular linewidth of the ...


A New Approach to Dispersion Analysis of Graded Index Optical Fibers

H. J. Carlin; H. Zmuda 1985 IEEE MTT-S International Microwave Symposium Digest, 1985

The dispersion characteristics of graded index optical fiber are studied using a transverse transmission line circuit representation. For round fibers new approximations have been developed which significantly simplifies the analysis. An interesting perspective as to the physical mechanisms underlying the dispersion characteristics of such fibers result from circuit theoretic considerations.


Polarization Beam Splitter With Different Core Widths and Its Application to Dual-Polarization Optical Hybrid

Yasuaki Hashizume; Takashi Goh; Yasuyuki Inoue; Kiichi Hamamoto; Mikitaka Itoh Journal of Lightwave Technology, 2015

We investigated the core-width dependence of the birefringence of silica-based waveguides with different relative refractive index differences (Δ), namely a 0.75%-Δ GeO2-doped waveguide and a 5%-Δ Ta2O5-doped waveguide. We revealed that the birefringence of the 0.75%-Δ GeO2-doped waveguide is almost the same as the stress-induced birefringence and that the 5%-Δ Ta2O5-doped waveguide has a large geometrical birefringence. By utilizing the ...


More eLearning Resources

IEEE-USA E-Books

  • Reflectarrays and Retrodirective Arrays

    This chapter contains sections titled: Reflectarrays Retrodirective Arrays References

  • Waveguides and Cavities

    This chapter concentrates on hollow waveguides, dielectric waveguides, and cavities commonly used in microwave, millimeter wave, and optical fibers. In discussing these problems, it presents basic formulations and solutions in terms of special functions. The chapter starts with a general expression for the electromagnetic field in the source‐free region in terms of the electric Hertz vector and the magnetic Hertz vector. Though, waveguide problems are a two‐dimensional eigen‐function problem, the chapter only considers the waveguide cross‐sectional area. Cavity resonators can be regarded as a three‐dimensional eigenfunction problem. A hollow waveguide whose cross section is enclosed by a single wall can propagate only transverse electric (TE) and transverse magnetic (TM) modes: It cannot support a transverse electromagnetic mode (TEM) mode. The chapter presents a general formulation of the propagation of a modulated pulse in a dispersive waveguide and then gives an approximate and useful solution for the broadening of a pulse in such a waveguide.

  • Full‐Vectorial Beam Propagation Methods

    This chapter contains sections titled: Introduction Overview of the Beam Propagation Methods Maxwell's Equations Magnetic‐Field Formulation of the Wave Equation Electric‐Field Formulation of the Wave Equation Perfectly Matched Layer Finite‐Element Analysis Derivation of BPM Equations Imaginary‐Distance BPM: Mode Solver References

  • Ultrafast Nonlinear Optics: Third Order

    This chapter contains sections titled: Propagation Equation for Nonlinear Refractive Index Media The Nonlinear Schrodinger Equation Self‐Phase Modulation Pulse Compression Modulational Instability Solitons Higher‐Order Propagation Effects Continuum Generation Problems

  • Classification of Digital Optics

    This chapter contains sections titled: Early Digital Optics Guided‐wave Digital Optics Free‐space Digital Optics Hybrid Digital Optics

  • Sturm-Liouville Equation: The Bridge between Eigenvalue and Green's Function Problems

    Guided wave problems can be grouped into two: eigenvalue (EV) problems (i.e., the effects of the environment on to the propagating waves) and the Green's function (GF) problem (the effects of the excitation in the environment). This chapter reviews guided wave theory (GWT) in one dimension (1D) which is represented by the Sturm-Liouville (SL) equation. In GWT, SL equation establishes a bridge between source-free (homogeneous) and source-driven (nonhomogeneous) wave equations. The GF problem in the physical domain differs from the EV problem due to the presence of the delta function (i.e., source terms) on the right-hand side.

  • Tunable Photonic Molecules for Spectral Engineering in Dense Photonic Integration

    This chapter presents some recent advances in realizing novel devices with flexible spectral response using systems of coupled microring resonators, or photonic molecules. The design flexibility of such devices offers extra degrees of freedom to perform spectral engineering using standard tuning techniques, such as microheaters and pn junctions. The successful deployment of photonic¿¿¿based solutions across different fields depends on the ability to fully control the spectral response of the building blocks of photonic circuitry. The basic functionalities required for most applications are now available in a variety of designs and platforms but the challenge remains to realize these functionalities with devices allowing for flexible and reconfigurable spectral control. A microring resonator for instance, while presenting a certain level of design freedom and spectral tunability, has its filtering and power enhancement properties dictated by its free spectral range (FSR), linewidth, and extinction ratio (ER), which are difficult to control actively.

  • Bidirectional Beam Propagation Method

    This chapter contains sections titled: Introduction Optical Waveguide Discontinuity Problem Finite‐Element Analysis of Discontinuity Problems Derivation of Finite‐Element Matrices Application of Taylor's Series Expansion Computation of Reflected, Transmitted and Radiation Waves Optical Fibre Facet Problem Finite‐Element Analysis of Optical Fibre Facets Iterative Analysis of Multiple Discontinuities Numerical Assessment References



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