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Thin films: from growth to processing and applications
DHybrid integration and multiphysics nanomaterials for photonic devices and circuits
The hybrid integration of materials and the use of nanomaterials with diverse physical properties on conventional photonic platforms are key steps toward diversifying and densifying functions in photonic circuits.
Scope:
This symposium aims to review recent developments in materials for hybrid photonics that are expected to deliver major breakthroughs in photonic device performance. As advanced photonic integrated circuits (PICs) require diversified functions and technological approaches, the program is organized into three main sessions:
- Integrated isolators and circulators: Focusing on magneto-optical (MO) nonreciprocity mechanisms, device architectures, and MO material integration, including magneto-plasmonics for device miniaturization.
- Hybrid integration and multiphysics materials: Covering MO, ferroelectric, electro-optical and other functional materials, along with elaboration techniques such as transfer printing, direct growth, and nanoparticle-loaded sol-gels. Multifunctional materials enabling simultaneous operation for electromagnetic and spin waves will also be discussed.
- Non-linear optics: Presenting recent progress driven by hybrid integration or novel material development.
Across these topics, the goal is to provide an updated view on the performance of emerging materials for photonics, highlighting the most promising in terms of elaboration, structuration, properties, and expected device impact. Invited talks will present state-of-the-art perspectives and/or focus on recent standout research results.
Hot topics to be considered:
- Integrated magneto-optical devices. Magneto-plasmonics. Non-reciprocity. Magnonic-spintronics.
- Hybrid integration. Oxides (magneto-optic, ferroelectric, electro-optic, etc.) on photonic platforms. Sol-gel or other advanced integration processes.
- Non-linear optics for integrated photonics.
Confirmed invited speakers:
- Yuya Shoji, Tokyo Institute of Technology - Magneto-optical non-reciprocal devices in Si photonics
- Anatoly Zayats, King’s College London - Title to be announced
- Bert Koopmans, Eindhoven University of Technology - Towards on-chip integrated spintronic-photonic integration
- Ivo Tanghe, IMEC Ghent - Integration of colloidal nanocrystals on silicon nitride for on-chip light sources
- Laurent Vivien, C2N, Université Paris-Saclay - Crystalline Oxides Platform for Hybrid Silicon Photonics
- Crina Cojocaru, Universitat Politècnica de Catalunya - Title to be announced
- Nadia Belabas, C2N, Université Paris-Saclay - Silicon resonators for multicolored quantum photonics
This symposium is proposed and sponsored by the European Union’s Horizon Europe project CIRCULIGHT, with support from Université Paris-Saclay Graduate School SIS.
Documentation
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