The topic of quantum reference frames (QRFs) has attracted a great deal of attention in the recent literature. Potentially, the correct description of such frames is important for both the technological applications of quantum mechanics and for its…

If one takes the geometric nature of gravity seriously, then it's reasonable to consider the proposition that the spacetime metric should have a classical description.

We usually think that classical mechanics paints a clear picture of how one collection of events deterministically evolves into another.

The firewall paradox is a thought experiment designed to test the consistency of quantum theory and general relativity.

Entanglement enables quantum advantage over classical applications. Entanglement between similar systems such as photons, ions, atoms and nuclear spins has already shown this advantage in information processing, communication, cryptography and…

Scientists often transfer ideas and concepts from one field to another. The concept of fluid, for example, is also used successfully outside of hydrodynamics.

Exceptional properties such as long coherence times, fault tolerant fidelities, fast and high fidelity state read-out, together with CMOS integration capabilities set spin-qubits amongst the top players in the race towards the quantum computer.

The causality condition states that the outcome of a present experiment should not depend on any future experiment and it is an important assumption in standard quantum theory.

We will examine generic tripartite systems in which two probe objects interact via an experimentally inaccessible mediator.

In this talk, I will explore both the theoretical and experimental opportunities that mechanical resonators provide for engineering one-way (nonreciprocal) and topological states.