Research Fellow in Quantum Nanoplasmonics - School of Physics and Astronomy - 103748 - Grade 7

University of Birmingham
9 months ago
Applications closed

Related Jobs

View all jobs

Research Fellow in Theoretical Molecular Physics/Astrophysics

Research Fellow in Actuation and Control Systems for Hydrogen Aerospace

Associate Solicitor- Catastrophic Injury

Serious Injury Lawyer (Grade A-C)

Scientific Sales Apprentice

Apprentice Production Technician

Summary

We seek an individual with theoretical background primarily in the research areas of nanophotonics and/or quantum optics. The successful candidate will develop the necessary theoretical models for the interaction of plasmons with quantum matter, such as development of quantization schemes and/or cavity Quantum Electrodynamic descriptions (QED), suitable for modelling the light-matter interactions between plasmons and quantum matter. The candidate will also perform computational calculations to design various nanoplasmonic devices that would allow for quantum entanglement and other quantum phenomena to be realized at room temperature. 

Main Duties

Key responsibilities:

To take initiative in the planning of research To identify and develop suitable theoretical techniques and models, for the collection and analysis of data Collect, analyse and interpret research data To ensure the validity and reliability of data at all times To maintain accurate and complete records of all findings Present research outputs, including drafting academic publications or parts thereof, for example at seminars and as posters Apply knowledge in a way which develops new intellectual understanding  Disseminate research findings for publication, research seminars, by drafting and preparing the relevant documents. To present findings to colleagues and at conferences Provide guidance, as required, to support staff and any students who may be assisting with the research Supervise students on research related work and provide guidance to PhD students where appropriate to the discipline Undertake basic management/administration arising from research Contribute to Departmental/School research-related activities and research-related administration Deal with problems that may affect the achievement of research objectives and deadlines

Person Specification

Have a PhD (or near to completion) in Physics (Theory) or related topic, or have an equivalent level of professional qualifications and/or experience. Expertise in one (or more) of the following disciplines: Plasmonics, Nanophotonics, quantum optics, quantum chemistry, or other related discipline. Good skills in computational simulations for nanoplasmonic devices and/or analytical modelling of light-matter interactions

Get the latest insights and jobs direct. Sign up for our newsletter.

By subscribing you agree to our privacy policy and terms of service.

Industry Insights

Discover insightful articles, industry insights, expert tips, and curated resources.

Tips for Staying Inspired: How Quantum Computing Pros Fuel Creativity and Innovation

Quantum computing is often heralded as the next frontier in computational power—promising unprecedented speed-ups for complex tasks, from cryptography and drug discovery to optimisation and materials science. Yet, despite the awe surrounding this field, pioneering breakthroughs come with their share of daily challenges: grappling with qubit stability, designing algorithms for hardware that’s still maturing, and navigating a fragmented ecosystem of quantum languages and simulators. It’s no surprise that even the most passionate quantum computing professionals can feel stuck or overwhelmed at times. So how do researchers, engineers, developers, and theorists continue to push the boundaries of quantum computing amidst these obstacles? Below, we delve into ten practical strategies that can help quantum computing experts remain creative, inspired, and ready to tackle the quantum revolution head-on. Whether you’re exploring fault-tolerant qubit architectures, coding in Qiskit, or running experiments on real quantum hardware, these tips can guide you toward new ideas and sustained motivation.

Top 10 Quantum Computing Career Myths Debunked: Key Facts for Aspiring Professionals

Quantum computing stands at the cutting edge of technology—a realm where the weird rules of quantum mechanics promise computational breakthroughs that could revolutionise cryptography, materials science, drug discovery, optimisation, artificial intelligence, and more. With tech giants, start-ups, and research institutions pouring immense resources into the field, the demand for quantum-savvy professionals has never been greater. Yet, despite the discipline’s rising profile, numerous misconceptions still circulate. Some believe that quantum computing is too arcane for all but the most brilliant mathematicians, while others assume it remains purely theoretical with no practical career paths. At QuantumComputingJobs.co.uk, we see how these myths can discourage curious minds from pursuing roles in a domain brimming with potential. This article tackles the top 10 myths about quantum computing careers, showing how you can set foot in this fascinating world—whether you’re a physics graduate, a software developer intrigued by quantum algorithms, or simply curious about the next frontier in computing. By busting these misconceptions, we’ll reveal that quantum computing is far more accessible, diverse, and opportunity-rich than many suspect.

Global vs. Local: Comparing the UK Quantum Computing Job Market to International Landscapes

Quantum computing was once the stuff of science fiction, discussed mainly in theoretical physics circles. Today, it’s emerging as the next massive leap in computational power—promising to tackle previously insoluble problems through the quantum-mechanical wonders of superposition and entanglement. From finance and cybersecurity to materials research and pharmaceutical discovery, quantum innovations could reshape entire industries, fuelling an urgent need for professionals skilled in this field. In this guide, we explore how the UK quantum computing job market compares with major global hubs—the United States, Europe, and Asia. We’ll delve into in-demand roles, remuneration trends, cultural dynamics, and other essentials for anyone contemplating whether to launch a quantum career at home or abroad. Whether you’re a research physicist, a software developer diving into qubit-based algorithms, or a recent graduate enamoured with quantum technology’s possibilities, you’ll find plenty of insights here. By the end, you’ll see how the UK measures up in terms of quantum opportunities and understand the benefits different regions can offer—be it higher salaries, cutting-edge labs, or greater work-life balance. Let’s begin this exciting journey into the rapidly evolving world of quantum computing.