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PhD Position - Optimization of Gap-plasmon Resonators for Environmental Systems - Job Opportunity at Aix Marseille Université

Marseille, France
Contract
Entry-level
Posted: April 1, 2025
On-site
EUR 30,000-35,000 per year (standard French doctoral contract)

Benefits

Funded PhD position through AMU's SCHADOC program
European MSCA-COFUND support
International research exposure with 2-month stay in Dresden
Access to cutting-edge research facilities
Multi-institute collaboration opportunities

Key Responsibilities

Develop and optimize NPoM-based plasmonic sensors
Conduct nanoscale characterization using s-SNOM and cathodoluminescence techniques
Implement numerical inverse design methods
Analyze nanoparticle properties and coupling mechanisms
Design and validate optical sensing platforms for VOC detection
Integrate computational simulations with experimental techniques
Optimize plasmonic architectures for environmental monitoring applications

Requirements

Education

Master's degree in Physics, Nanophotonics, or related field

Experience

Less than 4 years research experience post-master's degree

Required Skills

Strong background in optics and nanophotonics Expertise in far and nearfield optical microscopy Python programming proficiency Experience with optical components Knowledge of artificial intelligence applications in sensing

Certifications

ZRR (restricted area) clearance required
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Sauge AI Market Intelligence

Industry Trends

Growing demand for advanced environmental sensing technologies driven by increasing regulatory requirements and climate change concerns Rising integration of AI and machine learning in nanophotonic applications Shift towards multi-functional sensing platforms in environmental monitoring Increasing focus on VOC detection for air quality management

Role Significance

Collaborative environment across multiple research teams at Institut Fresnel, IM2NP, and international partners
Early-career research position with significant technical responsibility and potential for academic leadership development

Key Projects

Development of novel plasmonic sensing platforms Environmental monitoring system optimization AI-integrated nanophotonic design Cross-institutional research collaboration

Success Factors

Strong foundation in both experimental and computational methods Ability to bridge theoretical concepts with practical applications Effective collaboration across international research teams Innovation in combining AI with nanophotonic systems

Market Demand

High demand for specialists in nanophotonics and AI integration, particularly in environmental applications sector

Important Skills

Critical Skills

Advanced optical characterization techniques essential for experimental validation Programming skills crucial for implementing AI and optimization algorithms Understanding of plasmonic systems fundamental to project success

Beneficial Skills

Project management capabilities Scientific communication skills Knowledge of environmental sensing applications Experience with machine learning frameworks

Unique Aspects

Integration of cutting-edge characterization techniques with AI-driven optimization
Multi-institute collaboration structure
Direct application to environmental monitoring
European funding framework with international mobility

Career Growth

3-year doctoral program with potential for postdoctoral extension or industry transition

Potential Next Roles

Postdoctoral Researcher in Nanophotonics R&D Scientist in Environmental Sensing Academic Research Fellow Industry Research Scientist

Company Overview

Aix Marseille Université

Leading French public research university with strong international collaborations and specialized research institutes

Prominent position in European research landscape with strong funding support through EU programs
Major research hub in Mediterranean region with extensive international partnerships
Academic research environment emphasizing innovation, collaboration, and international exposure
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