Manipulating quantum systems undergoing non-Gaussian dynamics in a fast and accurate
manner is becoming fundamental to many quantum applications. Here, we focus on …

Collective many-body dynamics for time-dependent quantum Hamiltonians is investigated
for a dynamical system that exhibits multiple degrees of freedom, in this case a combined …

Recently, the measurement transition between von Neumann's projective strong
measurement and Aharonov's weak measurement are investigated theoretically and …

High control in the preparation and manipulation of states is an experimental and theoretical
important task in many quantum protocols. Shortcuts to adiabaticity methods allow to obtain …

The electric dipole moment (EDM) plays a crucial role in determining the interaction strength
of an atom with electric fields, making it paramount to quantum technologies based on …

The motion of trapped atoms plays an essential role in quantum mechanical sensing,
simulations and computing. Small disturbances of atomic vibrations are still challenging to …

High-order quantum nonlinearity is an important prerequisite for the advanced quantum
technology leading to universal quantum processing with large information capacity of …

Trapped ions are a promising candidate for quantum computation. As experiments with ions
increase in size and complexity, a trap array-based architecture for an ion trap with many …