PhD on Optimizing the polarization purity of beamforming active array antennas

Eindhoven University of Technology is an internationally top-ranking university in the Netherlands that combines scientific curiosity with a hands-on attitude. Our spirit of collaboration translates into an open culture and a top-five position in collaborating with advanced industries. Fundamental knowledge enables us to design solutions for the highly complex problems of today and tomorrow.

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Research is carried out into the applications of electromagnetic phenomena in all forms of energy conversion telecommunication and electrical signal processing. Existing and new electrical components and systems are analyzed designed and built. The Electrical Engineering department takes its inspiration from contacts with high-tech industry in the direct surrounding region and beyond.

The department is innovative and has international ambitions and partnerships. The result is a challenging and inspiring setting in which socially relevant issues are addressed.

Introduction

The PhD position is part the prestigious POLARIS (Pathway towards Opportunities for Large scale Applications of Radically Integrated Systems) project. Polaris is a large flagship program (funded by the Nationale Groei Fonds) in the Netherlands in which new technologies and concepts are developing the next generation radars ().

By uniting industry leaders researchers and innovators Polaris will turn cutting-edge ideas into real-world impact strengthening the Netherlands as a global high-tech leader. Within the Polaris program TU/e is focusing its research activities on the development of new antenna and integrated circuit concepts for radar and electromagnetic modelling. The Electromagnetics (EM) and Integrated Circuit (IC) groups are involved as well as the Center for Wireless Technology Eindhoven (CWTe). All PhD projects within Polaris are strongly connected to the industrial partners.

Job Description

In the rapidly evolving field of wireless communication and radar systems the demand for highly efficient adaptive and precise antenna technologies has never been greater. Beamforming active array antennas with their ability to dynamically steer and shape beams are at the forefront of this innovation. However achieving high polarization purity and polarization diversity in these systems remains a significant challenge especially while scanning crucial for minimizing signal interference enhancing communication reliability and improving overall system performance.

This PhD position offers the opportunity to dive deep into the complexities of antenna polarization focusing on developing novel methods and design strategies to optimize polarization purity in active array antennas. By addressing these challenges the candidate will contribute to the next generation of high-performance active antenna systems with focus specifically on advanced radar. While the need for dual-polarization communication has been well established current radar systems predominantly use a single polarization.

The core objective of this research is to improve polarization purity by addressing both the generation of orthogonal polarizations in transmit mode and the minimization of inter-polarization coupling. Specifically the project will investigate how dual-polarized array architectures can be optimized to sustain orthogonality and isolation across wide scanning ranges. This includes the design of feed networks and element geometries that preserve polarization separation and suppress cross-polarization components.

A high-level planning of the project includes the following phases divided over a period of 48 Months:

1. System-Level Analysis and Target Definition: Conduct an in-depth analysis of the overall system architecture and performance needs translating these insights into specific requirements for the antenna design. Stakeholder feedback will be actively integrated to ensure the design aligns with practical and cost-effective applications laying a strong foundation for the research.
2. Literature Review: Perform a comprehensive review of existing research on beamforming active array antennas with a particular focus on techniques aimed at achieving and maintaining high polarization purity. This phase will identify critical research gaps and potential areas for advancement.
3. Analysis of Current Techniques and Identification of Research Objectives: Assess existing methods and technologies that address polarization purity in active array antennas. From this analysis refine the research focus by identifying areas for improvement and innovation and establish the primary research objectives.
4. Mathematical Modeling: Develop detailed mathematical models to describe and predict polarization behavior in array antennas. These models will serve as a foundational tool for understanding key factors affecting polarization purity especially during scanning operations.
5. Conceptual Design and Simulation: Design initial conceptual models of active array antennas with an emphasis on polarization purity. Advanced simulation tools will be employed to test verify and optimize these designs. Cost considerations will also play a central role in design decisions ensuring a balance between performance and feasibility.
6. Prototype Fabrication and Experimental Validation: Based on simulation results fabricate prototype antenna arrays to conduct experimental measurements. This phase will validate the models and designs developed in previous stages demonstrating the feasibility and potential impact of the proposed approaches.
7. System Integration and Performance Evaluation: Assess the potential for integration of the developed antenna systems into existing communication and radar platforms. This phase will also include a cost-benefit analysis to evaluate the designs practicality for widespread deployment.
8. Documentation and Thesis Finalization: Synthesize findings and document the research process results and conclusions. This will culminate in the finalization of the PhD thesis presenting a comprehensive description of the research and its contributions to the field.

Job Requirements

• A masters degree (or an equivalent university degree)in a relevant electrical engineering or applied physics discipline.
• A research-oriented attitude.
• Ability to work in an interdisciplinary team and interested in collaborating with industrial partners.
• Motivated to develop your teaching skills and coach students.
• Fluent in spoken and written English (C1 level).
• In addition to the formal qualifications selection is also based on the performance of the candidates in other works (e.g. thesis and advanced level courses) as well as through interviews and assignments.
• Previous experience in radio propagation antennas electronics and signal processing as well as proficiency in using scientific and engineering software packages such as MATLAB CST ADS etc. are advantageous.

Conditions of Employment

A meaningful job in a dynamic and ambitious university in an interdisciplinary setting and within an international network. You will work on a beautiful green campus within walking distance of the central train addition we offer you:

• Full-time employment for four years with an intermediate assessment after nine months. You will spend a minimum of 10% of your four-year employment on teaching tasks with a maximum of 15% per year of your employment.
• Salary and benefits (such as a pension scheme paid pregnancy and maternity leave partially paid parental leave) in accordance with the Collective Labour Agreement for Dutch Universities scale P (min. 3059 - max. 3881).
• A year-end bonus of 8.3% and annual vacation pay of 8%.
• High-quality training programs and other support to grow into a self-aware autonomous scientific researcher. At TU/e we challenge you to take charge of your own learning process.
• An excellent technical infrastructure on-campus childrens day care and sports facilities.
• An allowance for commuting working from home and internet costs.
• A Staff Immigration Team and a tax compensation scheme (the 30% facility) for international candidates.

Information

Do you recognize yourself in this profile and would you like to know more Please contact the hiring manager dr. Gabriele Federico .

Visit our website for more information about the application process or the conditions of employment. You can also contact .

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Application

We invite you to submit a complete application by using the apply button. The application should include a:

• Cover letter in which you describe your motivation and qualifications for the position.
• Curriculum vitae including a list of your publications and the contact information of three references.

We look forward to receiving your application and will screen it as soon as possible. The vacancy will remain open until the position is filled.