Add to ORKGWe experimentally demonstrate PT-symmetric optical lattices with periodical gain and loss profiles in a coherently prepared four-level N-type atomic system. By appropriately tuning the pertinent atomic parameters, the onset of PT-symmetry breaking is observed through measuring an abrupt phase-shift jump between adjacent gain and loss waveguides. The experimental realization of such a readily reconfigurable and effectively controllable PT-symmetric waveguide array structure sets a new stage for further exploiting and better understanding the peculiar physical properties of these non-Hermitian systems in atomic settings
The development of new artificial structures and materials is today one of the major research challe...
The development of new artificial structures and materials is today one of the major research challe...
The development of new artificial structures and materials is today one of the major research challe...
We demonstrate that four-level atomic media provide a versatile platform for realizing parity-time (...
We demonstrate that four-level atomic media provide a versatile platform for realizing parity-time (...
We demonstrate that four-level atomic media provide a versatile platform for realizing parity-time (...
We demonstrate that four-level atomic media provide a versatile platform for realizing parity-time (...
We demonstrate that four-level atomic media provide a versatile platform for realizing parity-time (...
We propose that a coherently prepared four-level atomic medium can provide a versatile platform for ...
Parity-time (PT) symmetry has attracted considerable attention since optics was realized with the ab...
We propose a scheme to realize $\mathcal{PT}$ -, non-$\mathcal{PT}$ -, and anti-$\mathcal{PT}$ -symm...
The development of new artificial structures and materials is today one of the major research challe...
More than a decade ago, it was shown that non-Hermitian Hamiltonians with combined parity (P) and ti...
In standard quantum theory, the Hamiltonian describing a physical system is assumed to be Hermitian ...
Analysis of fundamentally open systems which exhibit both spatial reflection (parity) and time-rever...
The development of new artificial structures and materials is today one of the major research challe...
The development of new artificial structures and materials is today one of the major research challe...
The development of new artificial structures and materials is today one of the major research challe...
We demonstrate that four-level atomic media provide a versatile platform for realizing parity-time (...
We demonstrate that four-level atomic media provide a versatile platform for realizing parity-time (...
We demonstrate that four-level atomic media provide a versatile platform for realizing parity-time (...
We demonstrate that four-level atomic media provide a versatile platform for realizing parity-time (...
We demonstrate that four-level atomic media provide a versatile platform for realizing parity-time (...
We propose that a coherently prepared four-level atomic medium can provide a versatile platform for ...
Parity-time (PT) symmetry has attracted considerable attention since optics was realized with the ab...
We propose a scheme to realize $\mathcal{PT}$ -, non-$\mathcal{PT}$ -, and anti-$\mathcal{PT}$ -symm...
The development of new artificial structures and materials is today one of the major research challe...
More than a decade ago, it was shown that non-Hermitian Hamiltonians with combined parity (P) and ti...
In standard quantum theory, the Hamiltonian describing a physical system is assumed to be Hermitian ...
Analysis of fundamentally open systems which exhibit both spatial reflection (parity) and time-rever...
The development of new artificial structures and materials is today one of the major research challe...
The development of new artificial structures and materials is today one of the major research challe...
The development of new artificial structures and materials is today one of the major research challe...