Add to ORKGA many-body atomic system coupled to quantized light is subject to weak measurement. Instead of coupling light to the on-site density, we consider the quantum backaction due to the measurement of matter-phase-related variables such as global phase coherence. We show how this unconventional approach opens up new opportunities to affect system evolution. We demonstrate how this can lead to a new class of final states different from those possible with dissipative state preparation or conventional projective measurements. These states are characterised by a combination of Hamiltonian and measurement properties thus extending the measurement postulate for the case of strong competition with the system's own evolution
Cavity enhanced light scattering off an ultracold gas in an optical lattice constitutes a quantum me...
Recent developments in quantum computing suggest that it could be possible to make conditional chang...
We consider the light scattering from ultracold atoms trapped in an optical lattice inside a cavity....
A many-body atomic system coupled to quantized light is subject to weak measurement. Instead of coup...
Trapping ultracold atoms in optical lattices enabled the study of strongly correlated phenomena in a...
Trapping ultracold atoms in optical lattices enabled the study of strongly correlated phenomena in a...
Trapping ultracold atoms in optical lattices enabled numerous breakthroughs uniting several discipli...
We study the atom-light interaction in the fully quantum regime, with the focus on off-resonant ligh...
We study the atom-light interaction in the fully quantum regime, with the focus on off-resonant ligh...
We study the atom-light interaction in the fully quantum regime, with the focus on off-resonant ligh...
We study the atom-light interaction in the fully quantum regime, with the focus on off-resonant ligh...
In quantum physics, measurement exhibits fundamentally different behaviour to the classical case, ha...
We study the atom-light interaction in the fully quantum regime, with the focus on off-resonant ligh...
In quantum physics, measurement exhibits fundamentally different behaviour to the classical case, ha...
The state vector representing a quantum system acquires a phase factor following an adiabatic evolut...
Cavity enhanced light scattering off an ultracold gas in an optical lattice constitutes a quantum me...
Recent developments in quantum computing suggest that it could be possible to make conditional chang...
We consider the light scattering from ultracold atoms trapped in an optical lattice inside a cavity....
A many-body atomic system coupled to quantized light is subject to weak measurement. Instead of coup...
Trapping ultracold atoms in optical lattices enabled the study of strongly correlated phenomena in a...
Trapping ultracold atoms in optical lattices enabled the study of strongly correlated phenomena in a...
Trapping ultracold atoms in optical lattices enabled numerous breakthroughs uniting several discipli...
We study the atom-light interaction in the fully quantum regime, with the focus on off-resonant ligh...
We study the atom-light interaction in the fully quantum regime, with the focus on off-resonant ligh...
We study the atom-light interaction in the fully quantum regime, with the focus on off-resonant ligh...
We study the atom-light interaction in the fully quantum regime, with the focus on off-resonant ligh...
In quantum physics, measurement exhibits fundamentally different behaviour to the classical case, ha...
We study the atom-light interaction in the fully quantum regime, with the focus on off-resonant ligh...
In quantum physics, measurement exhibits fundamentally different behaviour to the classical case, ha...
The state vector representing a quantum system acquires a phase factor following an adiabatic evolut...
Cavity enhanced light scattering off an ultracold gas in an optical lattice constitutes a quantum me...
Recent developments in quantum computing suggest that it could be possible to make conditional chang...
We consider the light scattering from ultracold atoms trapped in an optical lattice inside a cavity....