Salary: to be negotiated
Group Leader: Alberto Peruzzo
Enquiries To: firstname.lastname@example.org
Start Date: 04/09/2023
Node(s): RMIT University
School / Faculty: CQC2T
Institution City/Country: Melbourne
Role: PhD Student
1st Supervisor: A. Prof. Alberto Peruzzo
PhD position in Theoretical Quantum Control
We seek an outstanding and enthusiastic PhD candidate to work on quantum control at the RMIT University node of the ARC Centre of Excellence for Quantum Computation and Communication Technology (CQC2T). Following our recent success in demonstrating novel techniques for quantum control, this project will extend the current capability by adding new theoretical and numerical methods to improve the state-of-the-art performance of real-world devices.
The candidate will design, analyse, and implement novel techniques for controlling quantum systems under realistic conditions, which will eventually be tested on quantum hardware. They will learn a wide range of techniques from theoretical quantum control to high-performance computing and machine learning.
Centre of Excellence for Quantum Computation and Communication Technology
CQC2T is focused on delivering world-leading quantum research to develop full-scale quantum systems – encompassing ultra-fast quantum computation, secure quantum communication and distributed quantum information processing. The Centre has more than 200 researchers across seven Australian universities, including RMIT, working in 19 coordinated programs and nine collaborative Work Packages. Along with 25 national and international partner organisations, the Centre forms one of the largest combined and focused efforts in quantum computation and communication in the world.
Quantum Photonics Laboratory
At the Quantum Photonics Laboratory (www.qplabs.org), RMIT University, we conduct a wide-range of research, from the engineering and control of quantum information and communication technologies to the exploration of quantum phenomena within biological, chemical, and physical systems.
- Investigate advanced methodologies for characterization of quantum systems.
- Design, implement, and analyse control strategies to enhance the performance of quantum systems.
- Collaborate with a multidisciplinary team to develop novel quantum control solutions for experimental quantum technology platforms.
- Engage in the fast-growing quantum control community in Australia.
- Contribute to the international scientific community through publications and conferences.
- A Master’s degree (or equivalent) in physics, engineering, computer science, or a related field.
- A strong foundation in quantum computing, quantum mechanics and/or control theory.
- Basic understanding of machine learning techniques.
- Proficiency in programming languages (Python, MATLAB, etc.) and numerical simulations.
- Excellent problem-solving skills and a keen interest in scientific research.
- Ability to work independently and as part of a team, with excellent communication skills.
- Immersive research environment with state-of-the-art facilities and resources.
- Mentorship from world-class scientists and exposure to cutting-edge technologies.
- Opportunities for collaboration with leading national and international research groups.
- Competitive stipend and funding for conference travel and research expenses.
- Clear career development path with potential for postdoctoral and industry positions.
- Thriving community of fellow researchers and access to a network of industry partners.
How to Apply:
We invite outstanding candidates to apply by submitting their CV, undergraduate and postgraduate transcripts, a cover letter outlining their research interests, and contact information for references to email@example.com with subject: “Quantum Control PhD Position”.