Doctorat en intégration de systèmes photoniques hétérogènes pour télécoms et calcul quantique -[...]

Interdisciplinary Institute for Technological Innovation (3IT)

Organisation/Company Université de Sherbrooke Department Interdisciplinary Institute for Technological Innovation (3IT) Research Field Engineering » Materials engineering Physics » Optics Engineering » Electrical engineering Researcher Profile First Stage Researcher (R1) Positions PhD Positions Application Deadline 1 May 2026 - 12:00 (America/New_York) Country Canada Type of Contract Temporary Job Status Full-time Is the job funded through the EU Research Framework Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No

Offer Description Contexte Objectif Context AEPONYX aims to develop an innovative technological platform dedicated to the integration and assembly of heterogeneous photonic circuits, with the ambition of profoundly transforming the strategic sectors of advanced telecommunications and quantum computing. Current photonic‑integration approaches face major technical and economic limitations: complex and expensive processes, low integration density, and significant optical losses at interfaces between materials or components. These constraints hinder the deployment of compact, high‑performance, and industrially competitive photonic systems. In this context, the project led by the Université de Sherbrooke (UdeS) and AEPONYX seeks to push these boundaries by developing a

modular ,

adaptable , and

high‑yield

platform capable of

efficiently integrating, within a single system, photonic and quantum components originating from different technologies . This development will pave the way for new generations of high‑performance hybrid systems that address the growing needs of tomorrow’s quantum and telecommunications applications.

Objective The objective of the PhD project is to combine

heterogeneous‑integration

technologies, MEMS

microfabrication , and

advanced packaging

methods to develop robust, reproducible, and industrially compatible integration processes. These processes will be used to fabricate state‑of‑the‑art photonic devices for quantum applications. This interdisciplinary project spans a wide range of fields, including physics, materials science, photonics, and electrical and mechanical engineering. The system at the core of the project raises both fundamental (optics, photonics, quantum physics) and applied (fabrication, integration) research questions due to the unique challenges posed by the components and their heterogeneity. The PhD candidate will work in close collaboration with expert teams at AEPONYX, the Centre de Collaboration MiQro Innovation (C2MI), and the Interdisciplinary Institute for Technological Innovation (3IT), benefiting from an exceptional environment at the i nterface of industry and academic research .

Where to apply E-mail jobmicro@usherbrooke.ca

Requirements Research Field Engineering Education Level Master Degree or equivalent

Skills/Qualifications

Specialization in materials engineering, physics, or electrical engineering

Strong adaptability, autonomy, and problem‑solving abilities

Strong interest in design, experimental work, and teamwork

Assets: knowledge of microelectronics, photonics, and microfabrication/integration processes

Fluent in French and/or English

Languages FRENCH Level Good

Languages ENGLISH Level Good

Additional Information Work Location(s) Number of offers available 1 Company/Institute Centre de Collaboration MiQro Innovation (C2MI) Country Canada State/Province Quebec City Bromont Postal Code J2L 1S8 Street 45, boulevard de l'Aéroport Geofield

#J-18808-Ljbffr