PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf ·...
Transcript of PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf ·...
![Page 1: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/1.jpg)
1Women in Photonics School on
Photonic Metamaterials
PhOREMOSTnetwork of excellence
Promoting Nanophotonics in Europe
PhOREMOSTEmerging Nanophotonics
RoadmapSilvia M. Pietralunga
1
“Nanophotonics to Realise Molecular-Scale Technologies”
![Page 2: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/2.jpg)
2WiP - School on Photonic Metamaterials
JointResearchProjects
Dissemination
Road Map for NanophotonicsEmerging Nanophotonicsroadmap
IntegrationEducation &
Training
Roadmapping: one mainactivity in our network
![Page 3: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/3.jpg)
3WiP - School on Photonic Metamaterials
What?
Scientific and technical roadmap– Focus on selected emerging (mid to long-term)
nanophotonic concepts, technologies anddevices
– Identify main challenges and possibleroadblocks
– Outcome should help to steer and focusresearch in nanophotonics for the scientificcommunity at large and within PhOREMOST inparticular
![Page 4: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/4.jpg)
4WiP - School on Photonic Metamaterials
How does it relate to MONA?
• MONA and PhOREMOST roadmappingactivities were developed as a coordinatedeffort
• PhOREMOST’s emerging nanophotonicsroadmap is complementary to MONA’s“Roadmap for Photonics andNanotechnologies”
4
http://www.ist-mona.org/roadmaps
![Page 5: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/5.jpg)
5WiP - School on Photonic Metamaterials
How is it structured?
• We have chosen selected topics, with highpotential impact and outstanding scientificand technological challenges in threedifferent areas:
– Concepts– Technologies– Devices
5
![Page 6: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/6.jpg)
6WiP - School on Photonic Metamaterials
Table of Contents: Concepts
• Random lasers• Non-linear nano-optics• Metamaterials in the visible• Plasmonics• Microcavities• Optical trapping and sorting
![Page 7: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/7.jpg)
7WiP - School on Photonic Metamaterials
Table of Contents:Technologies
• Infiltration Techniques• Functionalisation• Self-assembly• Hybrid nanotechnologies
![Page 8: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/8.jpg)
8WiP - School on Photonic Metamaterials
Table of Contents: Devices
• Photovoltaics• Lighting and optical sources• Sensing• Light manipulation• Nano-doped active materials
8
![Page 9: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/9.jpg)
9WiP - School on Photonic Metamaterials
Example 1: Random lasers
• Motivations
– Obtain lasing in new random materialsCheap and easy large scale fabricationNew optical properties
– Understand physics of random lasing– Develop new applications in lighting,
encryption, sensing...
9
![Page 10: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/10.jpg)
10WiP - School on Photonic Metamaterials
Example 1: Random lasers
• Figures of merit– Lasing efficiency, material stability, temperature
sensitivity, …• Main challenges
– Theoretical model that includes interference:understanding localized and extended modes inrandom systems
– Mode competition, stability: how stable is theoutput, when is it chaotic, and role of modecompetition
– Electrical pumping
10
![Page 11: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/11.jpg)
11WiP - School on Photonic Metamaterials
Example 1: Random lasers
11Red (No known solutions at this time), Yellow (Very hard but possiblesolutions), Green (feasible solutions under investigation), White (knownsolutions, first commercial products available)
![Page 12: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/12.jpg)
12WiP - School on Photonic Metamaterials
Example 2: Sub-wavelengthplasmon optics
• Motivations– Enhanced light-matter interaction at the
nanoscale– Plasmon routing at the sub-micrometer scale
for short distance interconnects– New hybrid materials
12
![Page 13: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/13.jpg)
13WiP - School on Photonic Metamaterials
Example 2: Sub-wavelengthplasmon optics
• Figures of merit– Molecular sensitivity in Surface Enhanced Raman
Scattering (SERS)– Light guiding through submicrometer sections– SP-enhanced optical forces– ….
• Main challenges– Field confinement below the 20 nm level– Field Enhancement factor above 100– SP guiding through sections smaller than 100 nm– Controlling the dynamics of single molecules– Trapping objects as small as 100 nm
13
![Page 14: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/14.jpg)
14WiP - School on Photonic Metamaterials
Example 2: Sub-wavelengthplasmon optics
14
![Page 15: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/15.jpg)
15WiP - School on Photonic Metamaterials
Example 3: nanoparticle-dopedorganics waveguide optical
amplifiers• Motivations
– Optical gain on short distances for applicationsin integrated PLC
– Organic PLC are attractive due to goodperformances and cost-effectiveness
– Optical amplification at telecom wavelengths inorganics is an issue, due to both absorptionand luminescence quenching
15
![Page 16: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/16.jpg)
16WiP - School on Photonic Metamaterials
Example 3: nanoparticle-dopedorganics waveguide optical
amplifiers• Figures of merit
– Optical gain coefficient for the material– Waveguide propagation loss– Net optical gain for the implemented waveguide
• Main challenges• Increased gain of PMMA-based EDWA at l = 1.50 mm.To
reach a gain parameter of about 4 db/cm• Realization of PMMA-based WDM for optical pumping• Realization of Chalcogenide doped single-mode
waveguides• Realization of Plug and play devices
16
![Page 17: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/17.jpg)
17WiP - School on Photonic Metamaterials
Example 3: nanoparticle-dopedorganics waveguide optical
amplifiers
17
Timeline: 2 – 5 years 5 – 10 years 10 years and more Increased gain of PMMA-based EDWA at = 1.50 m
Realization of PMMA-based WDM
Chalcogenide doped single-mode waveguides
Plug-and-Play devices
![Page 18: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/18.jpg)
18WiP - School on Photonic Metamaterials
Contacts
PhOREMOST Roadmap ContactProf. Goncal BadenesICFO, [email protected]
PhOREMOST Coordinator:Prof. Clivia Sotomayor Torres,ICREA Research Professor, ICN
Barcelona and Tyndall NationalInstitute, Cork
Technical Examples:Random LasersDr Diederik WiersmaLENS, [email protected]
Sub-wavelength plasmon opticsDr Romain QuidantICFO, [email protected]
PMMA-nanodoped amplifiersDr Isabelle LedouxENS-Cachan, [email protected]
www.phoremost .org
![Page 19: PhOREMOST network of excellence - Hellasesperia.iesl.forth.gr/~wip/lectures/pdfs/Phoremost.pdf · WIP_Roadmap_v4.ppt Author: Pietralunga Silvia Created Date: 4/17/2008 11:46:03 AM](https://reader034.fdocuments.in/reader034/viewer/2022052104/603eedd61bf7067d4b6ecd15/html5/thumbnails/19.jpg)
19WiP - School on Photonic Metamaterials
Public version (print and electronic)scheduled for May 2008
Watch for it athttp://www.phoremost.org/
19