Recent years have seen tremendous progress in the theoretical understanding of quantum
systems driven dissipatively by coupling to different baths at their edges. This was possible …

Photonic quantum technologies represent a promising platform for several applications,
ranging from long-distance communications to the simulation of complex phenomena …

The way in which energy is transported through an interacting system governs fundamental
properties in nature such as thermal and electric conductivity or phase changes …

We study noninteracting fermionic systems undergoing continuous monitoring and driven by
biased reservoirs. Averaging over the measurement outcomes, we derive exact formulas for …

Describing a quantum impurity coupled to one or more noninteracting fermionic reservoirs is
a paradigmatic problem in quantum many-body physics. While historically the focus has …

The process of photosynthesis, the main source of energy in the living world, converts
sunlight into chemical energy. The high efficiency of this process is believed to be enabled …

We study the behavior of an extended fermionic wire coupled to a local stochastic field.
Since the quantum jump operator is Hermitian and quadratic in fermionic operators, it …

Esca** from a complex maze, by exploring different paths with several decision-making
branches in order to reach the exit, has always been a very challenging and fascinating task …

We report the first observation of non-Markovian stochastic resonance (SR), and we
discover that memory effects in the nonlinearity extremely enlarge the SR bandwidth. Our …

We study particle transport through a chain of coupled sites connected to free-fermion
reservoirs at both ends, subjected to a local particle loss. The transport is characterized by …