Overview |
Date: Tuesday June 5, 2018 |
SESSION 08:00-10:35 |
Photonic theory design and simulations - 1
This session focuses on the physics, design and simulations of optical and photonic structures, devices and systems. It is intended to provide a forum for the interchange of ideas on optics, photonics and optoelectronics theory, design, simulation and verification techniques at different levels, including material properties, components, devices, systems, fabrication, and applications. The session covers a wide range of topics in photonic theory, simulation and design, including: waveguide photonic bandgap engineering, microcavities, passive and active photonic devices, sensors, diffractive and subwavelength structures, integrated optical circuits for datacom, WDM and coherent communication systems, light sources, photodetectors, modulators, amplifiers, wavelength converters, switches, couplers, resonators, filters, free-space optics, optical interconnects, optics for aerospace and defense, photonic design automation, manufacturing and verification tools, and novel algorithms and photonic CAD software for photonics and integration with electronics. Session Moderator: Pavel Cheben, National Research Council of Canada, CanadaRoom Cartier 1 |
SESSION 08:00-10:35 |
Nonlinear Optics, Nanophotonics and Plasmonics - 1
This session aims at giving an overview on recent trends and achievements in nonlinear optics, nanophotonics and plasmonics, with a particular emphasis on fundamental nonlinear radiation-matter interactions, practical applications of nonlinear spectroscopy, integrated nonlinear optical devices, deep-subwavelength investigations, nanostructures and nanomaterials for photonics, nanoplasmonic systems, metasurfaces and metamaterials. We encourage the submission of abstracts that are related to one or more of the above topics. Session Moderator: Riccardo Piccoli, INRS-EMT, CanadaRoom Cartier 2 |
SESSION 08:00-10:35 |
Optical and Quantum Communications - 1
The goal of this session is to provide an overview of recent achievements and trends on optical and quantum communications, involving theoretical and experimental advances from the component and device level to the system application level. Both short and long-haul communication platforms will be considered. The central interest of the session is on envisioned technologies and strategies aimed at increasing the performance capabilities of available broadband communication platforms. Topics of interest in optical communications include innovative optical multiplexing strategies, such as space-domain multiplexing combined with time-domain or/and frequency-domain multiplexing techniques, advanced optical modulation formats, coherent communication strategies, digital-signal processing methods for pre- and post-compensation of linear and nonlinear impairments, and linear and nonlinear photonic technologies for communication applications, such as integrated-waveguide (e.g., silicon photonic) technologies. Session Moderator: Sophie Larochelle, Université Laval, CanadaRoom Intenational 1 |
SESSION 08:00-10:35 |
Light-matter Interactions at the quantum limit: atoms, molecules and photons - 1
Considerable efforts are underway globally to employ fundamental aspects of quantum physics to develop quantum technologies. This session will bring together leading theoretical and experimental physicists to discuss the latest developments in various implementations of quantum applications using atoms, molecules, and photons. Session Moderator: Jeff Lundeen, University of Ottawa, CanadaRoom International 2 |
10:35-11:00 |
COFFEE BREAK
Foyer 3
|
11:00-11:15 |
Welcoming Word from the Conference Chairs
Auditorium
|
PLENARY 11:15-12:00 |
"No Gain without Payne" - David Payne, ORC Southampton University, UK
Auditorium
|
12:00-13:15 |
LUNCH (ON YOUR OWN)
|
SESSION 13:15-15:05 |
Photonic theory design and simulations - 2
This session focuses on the physics, design and simulations of optical and photonic structures, devices and systems. It is intended to provide a forum for the interchange of ideas on optics, photonics and optoelectronics theory, design, simulation and verification techniques at different levels, including material properties, components, devices, systems, fabrication, and applications. The session covers a wide range of topics in photonic theory, simulation and design, including: waveguide photonic bandgap engineering, microcavities, passive and active photonic devices, sensors, diffractive and subwavelength structures, integrated optical circuits for datacom, WDM and coherent communication systems, light sources, photodetectors, modulators, amplifiers, wavelength converters, switches, couplers, resonators, filters, free-space optics, optical interconnects, optics for aerospace and defense, photonic design automation, manufacturing and verification tools, and novel algorithms and photonic CAD software for photonics and integration with electronics. Session Moderator: Andrew Knights, McMaster University, CanadaRoom Cartier 1 |
SESSION 13:15-15:05 |
Green photonics, energy, and related technologies - 1
Efficient utilization of light, both natural and artificial, is an essential goal of photonics technology. This session investigates photovoltaics and photonics applications in energy efficiency and manufacturing. Paper with novel results in the following topics will be considered: Materials, Characterization techniques, Numerical modeling, Advanced light management and spectral shaping, Devices including photovoltaics, LEDs, power converters, low power sensors, fuels generation, System architectures, Solar resource and economics models, Converged bidirectional power and data andAgricultural adaptations Session Moderator: Maxime Darnon, Université de Sherbrooke, CanadaRoom Cartier 2 |
SESSION 13:15-15:05 |
Optical and Quantum Communications - 2
The goal of this session is to provide an overview of recent achievements and trends on optical and quantum communications, involving theoretical and experimental advances from the component and device level to the system application level. Both short and long-haul communication platforms will be considered. The central interest of the session is on envisioned technologies and strategies aimed at increasing the performance capabilities of available broadband communication platforms. Topics of interest in optical communications include innovative optical multiplexing strategies, such as space-domain multiplexing combined with time-domain or/and frequency-domain multiplexing techniques, advanced optical modulation formats, coherent communication strategies, digital-signal processing methods for pre- and post-compensation of linear and nonlinear impairments, and linear and nonlinear photonic technologies for communication applications, such as integrated-waveguide (e.g., silicon photonic) technologies. Session Moderator: Filippo Romanato, University of Padova, ItalyRoom Intenational 1 |
SESSION 13:15-15:05 |
Light-matter Interactions at the quantum limit: atoms, molecules and photons - 2
Considerable efforts are underway globally to employ fundamental aspects of quantum physics to develop quantum technologies. This session will bring together leading theoretical and experimental physicists to discuss the latest developments in various implementations of quantum applications using atoms, molecules, and photons. Session Moderator: Connor Kupchak, University of Ottawa, CanadaRoom International 2 |
SESSION 13:15-15:05 |
Photonics Technology Entrepreneurship and Innovation
The objective of this session is to offer a platform for discussing entrepreneurial opportunities, business models, emerging issues and commercialization strategies relevant to the photonics technology community.Both contexts - of early stage startups (entrepreneurship) and established firms exploring new business opportunities (intrapreneurship) will be covered. The intent is to move away from the usual discourse of technology features and product attributes to business opportunities and competitive value propositions. The session will consist of three types of contributions: Invited talks, Regular contributions and a Panel discussion. Session Moderator: Velko Tzolov, NRC-IRAP, CanadaAuditorium |
15:05-15:30 |
COFFEE BREAK
Foyer 3
|
SESSION 15:30-17:50 |
Photonic theory design and simulations - 3
This session focuses on the physics, design and simulations of optical and photonic structures, devices and systems. It is intended to provide a forum for the interchange of ideas on optics, photonics and optoelectronics theory, design, simulation and verification techniques at different levels, including material properties, components, devices, systems, fabrication, and applications. The session covers a wide range of topics in photonic theory, simulation and design, including: waveguide photonic bandgap engineering, microcavities, passive and active photonic devices, sensors, diffractive and subwavelength structures, integrated optical circuits for datacom, WDM and coherent communication systems, light sources, photodetectors, modulators, amplifiers, wavelength converters, switches, couplers, resonators, filters, free-space optics, optical interconnects, optics for aerospace and defense, photonic design automation, manufacturing and verification tools, and novel algorithms and photonic CAD software for photonics and integration with electronics. Session Moderator: Graham Reed, University of Southampton, CanadaRoom Cartier 1 |
SESSION 15:30-17:50 |
Green photonics, energy, and related technologies - 2
Efficient utilization of light, both natural and artificial, is an essential goal of photonics technology. This session investigates photovoltaics and photonics applications in energy efficiency and manufacturing. Paper with novel results in the following topics will be considered: Materials, Characterization techniques, Numerical modeling, Advanced light management and spectral shaping, Devices including photovoltaics, LEDs, power converters, low power sensors, fuels generation, System architectures, Solar resource and economics models, Converged bidirectional power and data andAgricultural adaptations Session Moderator: Alexandre Merlen, Université de Toulon, FranceRoom Cartier 2 |
SESSION 15:30-17:50 |
Optical and Quantum Communications - 3
The goal of this session is to provide an overview of recent achievements and trends on optical and quantum communications, involving theoretical and experimental advances from the component and device level to the system application level. Both short and long-haul communication platforms will be considered. The central interest of the session is on envisioned technologies and strategies aimed at increasing the performance capabilities of available broadband communication platforms. Topics of interest in optical communications include innovative optical multiplexing strategies, such as space-domain multiplexing combined with time-domain or/and frequency-domain multiplexing techniques, advanced optical modulation formats, coherent communication strategies, digital-signal processing methods for pre- and post-compensation of linear and nonlinear impairments, and linear and nonlinear photonic technologies for communication applications, such as integrated-waveguide (e.g., silicon photonic) technologies. Author Session Moderator: Giuseppe Vallone, University of Padova, ItalyRoom Intenational 1 |
SESSION 15:30-17:50 |
Light-matter Interactions at the quantum limit: atoms, molecules and photons - 3
Considerable efforts are underway globally to employ fundamental aspects of quantum physics to develop quantum technologies. This session will bring together leading theoretical and experimental physicists to discuss the latest developments in various implementations of quantum applications using atoms, molecules, and photons. Session Moderator: Benjamin Sussman, NRC, CanadaRoom International 2 |
SESSION 15:30-17:50 |
Photonics Technology Entrepreneurship and Innovation
The objective of this session is to offer a platform for discussing entrepreneurial opportunities, business models, emerging issues and commercialization strategies relevant to the photonics technology community.Both contexts - of early stage startups (entrepreneurship) and established firms exploring new business opportunities (intrapreneurship) will be covered. The intent is to move away from the usual discourse of technology features and product attributes to business opportunities and competitive value propositions. The session will consist of three types of contributions: Invited talks, Regular contributions and a Panel discussion. Session Moderator: Stoyan Tanev, Carleton University, CanadaAuditorium |
18:00-19:30 |
Welcome Reception
|
PUBLIC MEETING 18:30-21:030 |
CMC presents "Stakeholder engagement sessions regarding the CNDN technology roadmap"
Room Cartier 1
|
Date: Wednesday June 6, 2018 |
SESSION 08:00-10:30 |
Photonic theory design and simulations - 4
This session focuses on the physics, design and simulations of optical and photonic structures, devices and systems. It is intended to provide a forum for the interchange of ideas on optics, photonics and optoelectronics theory, design, simulation and verification techniques at different levels, including material properties, components, devices, systems, fabrication, and applications. The session covers a wide range of topics in photonic theory, simulation and design, including: waveguide photonic bandgap engineering, microcavities, passive and active photonic devices, sensors, diffractive and subwavelength structures, integrated optical circuits for datacom, WDM and coherent communication systems, light sources, photodetectors, modulators, amplifiers, wavelength converters, switches, couplers, resonators, filters, free-space optics, optical interconnects, optics for aerospace and defense, photonic design automation, manufacturing and verification tools, and novel algorithms and photonic CAD software for photonics and integration with electronics. Session Moderator: Andrew Knights, McMaster University, CanadaRoom Cartier 1 |
SESSION 08:00-10:30 |
Green photonics, energy, and related technologies - 3
Efficient utilization of light, both natural and artificial, is an essential goal of photonics technology. This session investigates photovoltaics and photonics applications in energy efficiency and manufacturing. Paper with novel results in the following topics will be considered: Materials, Characterization techniques, Numerical modeling, Advanced light management and spectral shaping, Devices including photovoltaics, LEDs, power converters, low power sensors, fuels generation, System architectures, Solar resource and economics models, Converged bidirectional power and data andAgricultural adaptations Session Moderator: Raphaël St-Gelais, University of Ottawa, CanadaRoom Cartier 2 |
SESSION 08:00-10:30 |
High Power Laser Technology, Ultrafast Optics and Applications - 1
This session will provide a forum to present and explore recent developments in the areas of high power laser technology, ultrafast optics and applications. Topics include, but are not limited to, the following areas: advances in laser sources; ultrafast solid-state, fiber, waveguide and semiconductor laser sources; nonlinear frequency conversion; high peak power lasers and amplification technologies; high intensity laser-matter interactions; laser-based XUV and X-ray sources; applications of novel short wavelength sources; laser-based particle acceleration; attosecond science; high harmonic generation; relativistic nonlinear phenomena; intense pulse propagation; sources of THz radiation; THz spectroscopy, sensing, and imaging; new THz measurement techniques; THz nonlinear optics; ultrafast devices, systems and measurement techniques; applications of ultrafast technology. Session Moderator: Arkady Major, University of Manitoba, CanadaRoom Intenational 1 |
SESSION 08:00-10:30 |
Photonics materials - 1
Innovative photonic solutions often heavily rely on material properties of components used. The traditional approach was to choose those materials at relatively late stages of the design. However, many solutions may benefit from the smart design of optical materials keeping in mind their specific use. Multi-functional optical materials are the focus of our attention in this symposium. We would like invite contributions describing innovative photonic devices with particularly emphasized role of photonic materials used as well as innovative multifunctional photonic materials that may enable new photonic devices. The symposium is also open for contributions describing natural photonic materials and structures (since we have so much to learn from the nature) as well as materials with potential use in biophotonics and biomedicine. Session Moderator: TBA, Organization TBARoom International 2 |
10:30-11:00 |
COFFEE BREAK AND EXHIBITION HALL VISIT
Exhibition Hall
|
PLENARY 11:00-11:45 |
"Harnessing Disorder for Photonic Applications" - Hui Cao, Yale University, USA
Auditorium
|
11:45-13:00 |
LUNCH (ON YOUR OWN)
|
SESSION 13:00-15:00 |
Photonic theory design and simulations - 5
This session focuses on the physics, design and simulations of optical and photonic structures, devices and systems. It is intended to provide a forum for the interchange of ideas on optics, photonics and optoelectronics theory, design, simulation and verification techniques at different levels, including material properties, components, devices, systems, fabrication, and applications. The session covers a wide range of topics in photonic theory, simulation and design, including: waveguide photonic bandgap engineering, microcavities, passive and active photonic devices, sensors, diffractive and subwavelength structures, integrated optical circuits for datacom, WDM and coherent communication systems, light sources, photodetectors, modulators, amplifiers, wavelength converters, switches, couplers, resonators, filters, free-space optics, optical interconnects, optics for aerospace and defense, photonic design automation, manufacturing and verification tools, and novel algorithms and photonic CAD software for photonics and integration with electronics. Session Moderator: Callum Littlejohns, University of Southampton, United KingdomRoom Cartier 1 |
SESSION 13:00-15:00 |
Nonlinear Optics, Nanophotonics and Plasmonics - 2
This session aims at giving an overview on recent trends and achievements in nonlinear optics, nanophotonics and plasmonics, with a particular emphasis on fundamental nonlinear radiation-matter interactions, practical applications of nonlinear spectroscopy, integrated nonlinear optical devices, deep-subwavelength investigations, nanostructures and nanomaterials for photonics, nanoplasmonic systems, metasurfaces and metamaterials. We encourage the submission of abstracts that are related to one or more of the above topics. Session Moderator: Luca Razzari, INRS-EMT, CanadaRoom Cartier 2 |
SESSION 13:00-15:00 |
High Power Laser Technology, Ultrafast Optics and Applications - 2
This session will provide a forum to present and explore recent developments in the areas of high power laser technology, ultrafast optics and applications. Topics include, but are not limited to, the following areas: advances in laser sources; ultrafast solid-state, fiber, waveguide and semiconductor laser sources; nonlinear frequency conversion; high peak power lasers and amplification technologies; high intensity laser-matter interactions; laser-based XUV and X-ray sources; applications of novel short wavelength sources; laser-based particle acceleration; attosecond science; high harmonic generation; relativistic nonlinear phenomena; intense pulse propagation; sources of THz radiation; THz spectroscopy, sensing, and imaging; new THz measurement techniques; THz nonlinear optics; ultrafast devices, systems and measurement techniques; applications of ultrafast technology. Session Moderator: Arkady Major, University of Manitoba, CanadaRoom Intenational 1 |
SESSION 13:00-15:00 |
Biophotonics - 1
Biophotonics and sensors encompass a range of rapidly advancing technologies. Superresolution and deep tissue nonlinear optical microscopy, fiber-optic and optical waveguide techniques, novel in-vivo optical methods, as well as surface plasmon resonances, micromechanical oscillators, microcavity resonators, nanoparticles and fluorescent markers are being widely investigated for novel imaging and sensing applications. Theory, simulation, and experiment are combining to produce new capabilities and applications, for example in optofluidics, advanced microscopy and brain imaging. The ultimate detection limit of some of these new devices can approach the single molecule level, with specificity ensured via chemical functionalization. Photonic sensors can feature multiplexed analysis and are compatible with microfluidics or lab-on-a-chip geometries that are enabling the development of small footprint devices. Many new techniques and novel prototypes have been developed in recent years. This session encourages the submission of abstracts relating to all types of optical imaging and sensing technologies. Session Moderator: Virginijus Barzda, University of Toronto, CanadaRoom International 2 |
15:00-15:30 |
COFFEE BREAK AND EXHIBITION HALL VISIT
Exhibition Hall
|
SESSION 15:30-18:00 |
Photonic theory design and simulations - 6
This session focuses on the physics, design and simulations of optical and photonic structures, devices and systems. It is intended to provide a forum for the interchange of ideas on optics, photonics and optoelectronics theory, design, simulation and verification techniques at different levels, including material properties, components, devices, systems, fabrication, and applications. The session covers a wide range of topics in photonic theory, simulation and design, including: waveguide photonic bandgap engineering, microcavities, passive and active photonic devices, sensors, diffractive and subwavelength structures, integrated optical circuits for datacom, WDM and coherent communication systems, light sources, photodetectors, modulators, amplifiers, wavelength converters, switches, couplers, resonators, filters, free-space optics, optical interconnects, optics for aerospace and defense, photonic design automation, manufacturing and verification tools, and novel algorithms and photonic CAD software for photonics and integration with electronics. Session Moderator: Laurent Vivien, Centre for Nanoscience and Nanotechnology, FranceRoom Cartier 1 |
SESSION 15:30-18:00 |
Nonlinear Optics, Nanophotonics and Plasmonics - 3
This session aims at giving an overview on recent trends and achievements in nonlinear optics, nanophotonics and plasmonics, with a particular emphasis on fundamental nonlinear radiation-matter interactions, practical applications of nonlinear spectroscopy, integrated nonlinear optical devices, deep-subwavelength investigations, nanostructures and nanomaterials for photonics, nanoplasmonic systems, metasurfaces and metamaterials. We encourage the submission of abstracts that are related to one or more of the above topics. Session Moderator: Andrea Toma, INRS-EMT, CanadaRoom Cartier 2 |
SESSION 15:30-18:00 |
High Power Laser Technology, Ultrafast Optics and Applications - 3
This session will provide a forum to present and explore recent developments in the areas of high power laser technology, ultrafast optics and applications. Topics include, but are not limited to, the following areas: advances in laser sources; ultrafast solid-state, fiber, waveguide and semiconductor laser sources; nonlinear frequency conversion; high peak power lasers and amplification technologies; high intensity laser-matter interactions; laser-based XUV and X-ray sources; applications of novel short wavelength sources; laser-based particle acceleration; attosecond science; high harmonic generation; relativistic nonlinear phenomena; intense pulse propagation; sources of THz radiation; THz spectroscopy, sensing, and imaging; new THz measurement techniques; THz nonlinear optics; ultrafast devices, systems and measurement techniques; applications of ultrafast technology. Session Moderator: Bernd Witzel, Université Laval, CanadaRoom Intenational 1 |
SESSION 15:30-18:00 |
Biophotonics - 2
Biophotonics and sensors encompass a range of rapidly advancing technologies. Superresolution and deep tissue nonlinear optical microscopy, fiber-optic and optical waveguide techniques, novel in-vivo optical methods, as well as surface plasmon resonances, micromechanical oscillators, microcavity resonators, nanoparticles and fluorescent markers are being widely investigated for novel imaging and sensing applications. Theory, simulation, and experiment are combining to produce new capabilities and applications, for example in optofluidics, advanced microscopy and brain imaging. The ultimate detection limit of some of these new devices can approach the single molecule level, with specificity ensured via chemical functionalization. Photonic sensors can feature multiplexed analysis and are compatible with microfluidics or lab-on-a-chip geometries that are enabling the development of small footprint devices. Many new techniques and novel prototypes have been developed in recent years. This session encourages the submission of abstracts relating to all types of optical imaging and sensing technologies. Session Moderator: Virginijus Barzda, University of Toronto, CanadaRoom International 2 |
PUBLIC MEETING 18:30-21:30 |
CMC presents "Stakeholder engagement sessions regarding the CNDN technology roadmap"
Room Cartier 1
|
18:30-21:00 |
POSTER SESSION COCKTAIL
Poster sessions provide an opportunity for informal, interactive presentations and discussions. A cocktail will be offered during the Poster Sessions. Foyer 4 |
Date: Thursday June 7, 2018 |
SESSION 08:00-10:30 |
Photonic theory design and simulations - 7
This session focuses on the physics, design and simulations of optical and photonic structures, devices and systems. It is intended to provide a forum for the interchange of ideas on optics, photonics and optoelectronics theory, design, simulation and verification techniques at different levels, including material properties, components, devices, systems, fabrication, and applications. The session covers a wide range of topics in photonic theory, simulation and design, including: waveguide photonic bandgap engineering, microcavities, passive and active photonic devices, sensors, diffractive and subwavelength structures, integrated optical circuits for datacom, WDM and coherent communication systems, light sources, photodetectors, modulators, amplifiers, wavelength converters, switches, couplers, resonators, filters, free-space optics, optical interconnects, optics for aerospace and defense, photonic design automation, manufacturing and verification tools, and novel algorithms and photonic CAD software for photonics and integration with electronics. Session Moderator: Lukas Chrostowski, University of British Columbia, CanadaRoom Cartier 1 |
SESSION 08:00-10:30 |
Nonlinear Optics, Nanophotonics and Plasmonics - 4
This session aims at giving an overview on recent trends and achievements in nonlinear optics, nanophotonics and plasmonics, with a particular emphasis on fundamental nonlinear radiation-matter interactions, practical applications of nonlinear spectroscopy, integrated nonlinear optical devices, deep-subwavelength investigations, nanostructures and nanomaterials for photonics, nanoplasmonic systems, metasurfaces and metamaterials. We encourage the submission of abstracts that are related to one or more of the above topics. Session Moderator: Amr Helmy, University of Toronto, CanadaRoom Cartier 2 |
SESSION 08:00-10:30 |
Optical and Quantum Communications - 4
The goal of this session is to provide an overview of recent achievements and trends on optical and quantum communications, involving theoretical and experimental advances from the component and device level to the system application level. Both short and long-haul communication platforms will be considered. The central interest of the session is on envisioned technologies and strategies aimed at increasing the performance capabilities of available broadband communication platforms. Topics of interest in optical communications include innovative optical multiplexing strategies, such as space-domain multiplexing combined with time-domain or/and frequency-domain multiplexing techniques, advanced optical modulation formats, coherent communication strategies, digital-signal processing methods for pre- and post-compensation of linear and nonlinear impairments, and linear and nonlinear photonic technologies for communication applications, such as integrated-waveguide (e.g., silicon photonic) technologies. Session Moderator: Robert Fickler, University of Ottawa, CanadaRoom Intenational 1 |
SESSION 08:00-10:30 |
Biophotonics - 3
Biophotonics and sensors encompass a range of rapidly advancing technologies. Superresolution and deep tissue nonlinear optical microscopy, fiber-optic and optical waveguide techniques, novel in-vivo optical methods, as well as surface plasmon resonances, micromechanical oscillators, microcavity resonators, nanoparticles and fluorescent markers are being widely investigated for novel imaging and sensing applications. Theory, simulation, and experiment are combining to produce new capabilities and applications, for example in optofluidics, advanced microscopy and brain imaging. The ultimate detection limit of some of these new devices can approach the single molecule level, with specificity ensured via chemical functionalization. Photonic sensors can feature multiplexed analysis and are compatible with microfluidics or lab-on-a-chip geometries that are enabling the development of small footprint devices. Many new techniques and novel prototypes have been developed in recent years. This session encourages the submission of abstracts relating to all types of optical imaging and sensing technologies. Session Moderator: Aaron Slepkov, Trent University, CanadaRoom International 2 |
10:30-11:00 |
COFFEE BREAK AND EXHIBITION HALL VISIT
Exhibition Hall
|
PLENARY 11:00-11:45 |
"Let Waves Do the Math" - Nader Engheta, University of Pennsylvania, USA
Auditorium
|
11:45-13:00 |
LUNCH (ON YOUR OWN)
|
SESSION 13:00-15:00 |
Photonic theory design and simulations - 8
This session focuses on the physics, design and simulations of optical and photonic structures, devices and systems. It is intended to provide a forum for the interchange of ideas on optics, photonics and optoelectronics theory, design, simulation and verification techniques at different levels, including material properties, components, devices, systems, fabrication, and applications. The session covers a wide range of topics in photonic theory, simulation and design, including: waveguide photonic bandgap engineering, microcavities, passive and active photonic devices, sensors, diffractive and subwavelength structures, integrated optical circuits for datacom, WDM and coherent communication systems, light sources, photodetectors, modulators, amplifiers, wavelength converters, switches, couplers, resonators, filters, free-space optics, optical interconnects, optics for aerospace and defense, photonic design automation, manufacturing and verification tools, and novel algorithms and photonic CAD software for photonics and integration with electronics. Session Moderator: Pavel Cheben, National Research Council of Canada, CanadaRoom Cartier 1 |
SESSION 13:00-15:00 |
Nonlinear Optics, Nanophotonics and Plasmonics - 5
This session aims at giving an overview on recent trends and achievements in nonlinear optics, nanophotonics and plasmonics, with a particular emphasis on fundamental nonlinear radiation-matter interactions, practical applications of nonlinear spectroscopy, integrated nonlinear optical devices, deep-subwavelength investigations, nanostructures and nanomaterials for photonics, nanoplasmonic systems, metasurfaces and metamaterials. We encourage the submission of abstracts that are related to one or more of the above topics. Session Moderator: Stefano Lupi, Università di Roma "La Sapienza", ItalyRoom Cartier 2 |
SESSION 13:00-15:00 |
Biophotonics - 4
Biophotonics and sensors encompass a range of rapidly advancing technologies. Superresolution and deep tissue nonlinear optical microscopy, fiber-optic and optical waveguide techniques, novel in-vivo optical methods, as well as surface plasmon resonances, micromechanical oscillators, microcavity resonators, nanoparticles and fluorescent markers are being widely investigated for novel imaging and sensing applications. Theory, simulation, and experiment are combining to produce new capabilities and applications, for example in optofluidics, advanced microscopy and brain imaging. The ultimate detection limit of some of these new devices can approach the single molecule level, with specificity ensured via chemical functionalization. Photonic sensors can feature multiplexed analysis and are compatible with microfluidics or lab-on-a-chip geometries that are enabling the development of small footprint devices. Many new techniques and novel prototypes have been developed in recent years. This session encourages the submission of abstracts relating to all types of optical imaging and sensing technologies. Session Moderator: Aaron Slepkov, Trent University, CanadaRoom Intenational 1 |
SESSION 13:00-15:00 |
Photonics materials - 2
Innovative photonic solutions often heavily rely on material properties of components used. The traditional approach was to choose those materials at relatively late stages of the design. However, many solutions may benefit from the smart design of optical materials keeping in mind their specific use. Multi-functional optical materials are the focus of our attention in this symposium. We would like invite contributions describing innovative photonic devices with particularly emphasized role of photonic materials used as well as innovative multifunctional photonic materials that may enable new photonic devices. The symposium is also open for contributions describing natural photonic materials and structures (since we have so much to learn from the nature) as well as materials with potential use in biophotonics and biomedicine. Session Moderator: TBA, Organization TBARoom International 2 |
SESSION 13:00-15:00 |
NSERC CREATE Guided Light - 1
The Canada-Germany graduate student training and collaborative research program in Guided Light, Tightly Packed, sponsored by NSERC CREATE and DFG, is encouraging all professor and trainee members of program to submit abstracts to the Photonics North Conference. The Photonics North program is welcoming both oral and poster presentations that capture the research activities especially of the collaborative program. Session Moderator: Peter Herman, University of Toronto, CanadaAuditorium |
15:00-15:30 |
COFFEE BREAK AND CLOSING WORD
Foyer 3
|
15:00-15:30 |
NSERC CREATE GUIDED LIGHT POSTER SESSION
Foyer 3 |
SESSION 15:30-18:30 |
Nonlinear Optics, Nanophotonics and Plasmonics - 6
This session aims at giving an overview on recent trends and achievements in nonlinear optics, nanophotonics and plasmonics, with a particular emphasis on fundamental nonlinear radiation-matter interactions, practical applications of nonlinear spectroscopy, integrated nonlinear optical devices, deep-subwavelength investigations, nanostructures and nanomaterials for photonics, nanoplasmonic systems, metasurfaces and metamaterials. We encourage the submission of abstracts that are related to one or more of the above topics. Session Moderator: Young-Gyun Jeong, INRS-EMT, CanadaRoom Cartier 2 |
SESSION 15:30-18:30 |
High Power Laser Technology, Ultrafast Optics and Applications - 4
This session will provide a forum to present and explore recent developments in the areas of high power laser technology, ultrafast optics and applications. Topics include, but are not limited to, the following areas: advances in laser sources; ultrafast solid-state, fiber, waveguide and semiconductor laser sources; nonlinear frequency conversion; high peak power lasers and amplification technologies; high intensity laser-matter interactions; laser-based XUV and X-ray sources; applications of novel short wavelength sources; laser-based particle acceleration; attosecond science; high harmonic generation; relativistic nonlinear phenomena; intense pulse propagation; sources of THz radiation; THz spectroscopy, sensing, and imaging; new THz measurement techniques; THz nonlinear optics; ultrafast devices, systems and measurement techniques; applications of ultrafast technology. Session Moderator: Arkady Major, University of Manitoba, CanadaRoom Intenational 1 |
SESSION 15:30-18:30 |
Photonics materials - 3
Innovative photonic solutions often heavily rely on material properties of components used. The traditional approach was to choose those materials at relatively late stages of the design. However, many solutions may benefit from the smart design of optical materials keeping in mind their specific use. Multi-functional optical materials are the focus of our attention in this symposium. We would like invite contributions describing innovative photonic devices with particularly emphasized role of photonic materials used as well as innovative multifunctional photonic materials that may enable new photonic devices. The symposium is also open for contributions describing natural photonic materials and structures (since we have so much to learn from the nature) as well as materials with potential use in biophotonics and biomedicine. Session Moderator: TBA, Organization TBARoom International 2 |
SESSION 15:30-18:30 |
NSERC CREATE Guided Light - 2
The Canada-Germany graduate student training and collaborative research program in Guided Light, Tightly Packed, sponsored by NSERC CREATE and DFG, is encouraging all professor and trainee members of program to submit abstracts to the Photonics North Conference. The Photonics North program is welcoming both oral and poster presentations that capture the research activities especially of the collaborative program. Session Moderators: Andreas Tuennermann/Stefan Nolte, Fraunhofer IOF Jena, GermanyAuditorium |