Within the QI2-lab we primarily work on quantum metrology and sensing problems. We develop fundamental theory for quantum estimation tasks in order to focus on their optical implementations, with particular interest in atomic-ensemble and optomechanical quantum sensors. We also seek novel solutions in quantum information, cryptography and communication, especially exploring the device-independent framework.

We work on optimisation for and with the help of quantum computing. Examples: optimal compilation, variational algorithms, efficient embeddings.

We are a theoretical physics research group based at Trinity College Dublin. Our research interfaces open quantum systems, non-equilibrium statistical physics, and quantum information.

Encoding information within quantum systems and manipulating them promises to lead to great advantages, with three main application domains: quantum cryptography, quantum simulation, and quantum algorithmics. To understand its strengths and limits, we take a transversal stance and seek to capture which resources are granted to us by nature, at the fundamental level, for the sake of computing (e.g. quantum & spatial parallelism).

This group, led by Martin Gärttner, studies theoretical foundations of quantum technologies. We focus on quantum simulation, machine learning methods in quantum technologies, and development of numerical methods for quantum many-body dynamics, and collaborate closely with experimental groups.