Add to ORKGParticle loss is the ultimate challenge for preparation of strongly correlated many-body states of photons. An established way to overcome the loss is to employ a stabilization setup that autonomously injects new photons in place of the lost ones. However, as we show, the effectiveness of such a stabilization setup is compromised for fractional quantum Hall states. There, a hole formed by a lost photon can separate into several remote quasiholes none of which can be refilled by injecting a photon locally. By deriving an exact expression for the steady-state density matrix, we demonstrate that isolated quasiholes proliferate in the steady state which damages the quality of the state preparation. The motion of quasiholes leading to their sepa...
Determining plateau widths and energy gaps is the remaining task to fully understand the electron tr...
Advancing a microscopic framework that rigorously unveils the underlying topological hallmarks of fr...
Fractonic constraints can lead to exotic properties of quantum many-body systems. Here, we investiga...
We investigate the quantum dynamics of systems involving small numbers of strongly interacting photo...
In a Laughlin fractional quantum Hall state, one- and two-quasihole states can be obtained by diagon...
Advancing a microscopic framework that rigorously unveils the underlying topological hallmarks of fr...
Chiral gapless boundary modes are characteristic of quantum Hall (QH) states. For hole-conjugate fra...
We propose a scheme to realize bosonic fraction quantum Hall conductance in shaken honeycomb optical...
Intermediate-scale quantum technologies provide new opportunities for scientific discovery, yet they...
Motivated by the recent experimental realization of a two-particle fractional quantum Hall state of ...
The striking nonlinear effects exhibited by cavity QED systems make them a powerful tool in modern c...
Cavity QED experiments are natural hosts for non-equilibrium phases of matter supported by photon-me...
We introduce and prove the "root theorem", which establishes a condition for families of operators t...
It has recently been pointed out that phases of matter with intrinsic topological order, like the fr...
Abstract: We propose an engineered reservoir inducing the relaxation of a cavity field towards non-c...
Determining plateau widths and energy gaps is the remaining task to fully understand the electron tr...
Advancing a microscopic framework that rigorously unveils the underlying topological hallmarks of fr...
Fractonic constraints can lead to exotic properties of quantum many-body systems. Here, we investiga...
We investigate the quantum dynamics of systems involving small numbers of strongly interacting photo...
In a Laughlin fractional quantum Hall state, one- and two-quasihole states can be obtained by diagon...
Advancing a microscopic framework that rigorously unveils the underlying topological hallmarks of fr...
Chiral gapless boundary modes are characteristic of quantum Hall (QH) states. For hole-conjugate fra...
We propose a scheme to realize bosonic fraction quantum Hall conductance in shaken honeycomb optical...
Intermediate-scale quantum technologies provide new opportunities for scientific discovery, yet they...
Motivated by the recent experimental realization of a two-particle fractional quantum Hall state of ...
The striking nonlinear effects exhibited by cavity QED systems make them a powerful tool in modern c...
Cavity QED experiments are natural hosts for non-equilibrium phases of matter supported by photon-me...
We introduce and prove the "root theorem", which establishes a condition for families of operators t...
It has recently been pointed out that phases of matter with intrinsic topological order, like the fr...
Abstract: We propose an engineered reservoir inducing the relaxation of a cavity field towards non-c...
Determining plateau widths and energy gaps is the remaining task to fully understand the electron tr...
Advancing a microscopic framework that rigorously unveils the underlying topological hallmarks of fr...
Fractonic constraints can lead to exotic properties of quantum many-body systems. Here, we investiga...