The task of the successful candidate is to describe light-matter interaction in and around nanostructures. Both, the material, and the electromagnetic field will be treated in a quantum fashion. The project is part of the Cooperative Research Center SFB 1375 Nonlinear Optics down to Atomic Scales (NOA) https://www.noa.uni-jena.de/. In NOA we aim at a close cooperation with experimental groups.

Phasecraft is the quantum algorithms company. We are building the mathematical foundations for quantum computing applications that solve real-world problems. Founded in 2019 by Toby Cubitt, Ashley Montanaro and John Morton, we are based in London and Bristol, UK. In 2023 we completed a £13m Series A funding round led by leading Silicon Valley deep tech VC, Playground Global.

Topological states exhibit protected currents and robust localization that can stabilize unique functions in stochastic and biological systems. This exciting and growing field opens fundamental theoretical questions in non-Hermitian and dissipative physics with new mathematical and physical properties.

The School of Mathematical and Physical Sciences at Macquarie University (MQ) in Sydney Australia is making a substantial investment to grow its research capacity in quantum science and seeks to appoint an outstanding candidate to a continuing position as Lecturer (level B) or Senior Lecturer (level C).

The successful appointee will be employed under the 'Teaching and Research Academic job family - a balanced academic role which combines elements of research, teaching, leadership and service'.

A key challenge in quantum computing involves dealing with errors which may arise from environmental noise or imperfections in the hardware. Error mitigation and correction strategies are essential to the development of practical quantum computing devices. In recent years, photonic quantum computing has emerged as a promising platform for quantum computing and demonstrating a genuine quantum advantage. Quantum states of light (QSoL) are robust to environmental noise and can be easily manipulated and measured using simple optical components at room temperature. Additionally, QSoL can be transmitted over long distances using optical fibres, which makes them an attractive option for quantum communication and networking.

The International Max Planck Research School for Chemistry and Physics of Quantum Materials is a joint PhD program between the Max Planck Institute for Chemical Physics of Solids in Dresden, Germany, Technische Universität Dresden and the University of St Andrews, Scotland. We seek to recruit multiple PhD students in 2024 to a range of inter‐institutional research projects in the broadly defined field of quantum materials, specifically with a focus on condensed-matter physics and solid-state chemistry.

We are a newly started laboratory at Chalmers University of Technology in Sweden. We will create interfaces between cold atoms, light and motion using nanofabricated devices. We will use these devices to create quantum states of mechanical motion. If you have a passion for highly collaborative, experimental research and want to learn advanced technical skills ranging from nanofabrication to atomic and optical physics, this is for you! For more information, see thethe job advertisement or our laboratory website.

We are searching for one talented and motivated research fellow for theoretical exploration quantum thermodynamics for many-body quantum systems. The candidate will be working with Assoc. Prof. Dario Poletti at the Singapore University of Technology and Design, and at the Centre for Quantum Technologies in Singapore. See group webpage at https://www.quantumlah.org/research/group/dario

We are seeking a Research Fellow / Postdoctoral Research Associate in Physics for a physics-chemistry multidisciplinary research program focused on quantum simulations of chemical dynamics using trapped ions. This position is open for both experimentalists and theorists. The research will be collaboratively performed with the trapped-ion experimental group at the School of Physics and the theoretical chemistry group at the School of Chemistry. Base Salary A\$101,507 - A\$140,586 p.a + 17% superannuation.

We seek to appoint a Postdoctoral Researcher in Physics for projects focused on developing classical-quantum interfaces and quantum control for trapped-ion quantum computation and simulation. This position is funded by the Australian Research Council Centre of Excellence for Engineered Quantum Systems (EQuS). Base Salary A\$101,507 - A\$140,586 p.a + 17% superannuation.

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