Add to ORKGA mechanism for asymmetric transport which is based on parity-time-symmetric nonlinearities is presented. We show that in contrast to the case of conservative nonlinearities, an increase of the complementary conductance strength leads to a simultaneous increase of asymmetry and transmittance intensity. We experimentally demonstrate the phenomenon using a pair of coupled Van der Pol oscillators as a reference system, each with complementary anharmonic gain and loss conductances, connected to transmission lines. An equivalent optical setup is also proposed
While equilibrium properties of mesoscopic systems are well understood, many questions are still deb...
We observe that the asymmetric transmission (AT) through photonic systems with a resonant chiral res...
The development of new artificial structures and materials is today one of the major research challe...
A mechanism for asymmetric transport which is based on parity-time- symmetric nonlinearities is pres...
A mechanism for asymmetric transport which is based on parity-time- symmetric nonlinearities is pres...
We consider the asymmetric active coupler (AAC) consisting of two coupled dissimilar waveguides with...
We show that nonlinear optical structures involving a balanced gain-loss profile can act as optical ...
We introduce the notion of Parity-Time Symmetry (PTS) and present its implications in wave transport...
In linear optics, the transmission of (conventional) absorbers is identical in the forward and backw...
A mechanism for asymmetric (nonreciprocal) wave transmission is presented. As a reference system, we...
Saturable and reverse saturable absorptions are well-known phenomena, originating from the imaginary...
The idea of asymmetric light transmission through a photonic crystal with relaxing Kerr nonlinearity...
This thesis advocates for a physical mechanism which induces significant asymmetric wave-transport i...
One dimensional lattice with an on-site cubic-quintic nonlinear response described by a cubic-quinti...
Using an approach to open quantum systems based on the effective non-Hermitian Hamiltonian, we fully...
While equilibrium properties of mesoscopic systems are well understood, many questions are still deb...
We observe that the asymmetric transmission (AT) through photonic systems with a resonant chiral res...
The development of new artificial structures and materials is today one of the major research challe...
A mechanism for asymmetric transport which is based on parity-time- symmetric nonlinearities is pres...
A mechanism for asymmetric transport which is based on parity-time- symmetric nonlinearities is pres...
We consider the asymmetric active coupler (AAC) consisting of two coupled dissimilar waveguides with...
We show that nonlinear optical structures involving a balanced gain-loss profile can act as optical ...
We introduce the notion of Parity-Time Symmetry (PTS) and present its implications in wave transport...
In linear optics, the transmission of (conventional) absorbers is identical in the forward and backw...
A mechanism for asymmetric (nonreciprocal) wave transmission is presented. As a reference system, we...
Saturable and reverse saturable absorptions are well-known phenomena, originating from the imaginary...
The idea of asymmetric light transmission through a photonic crystal with relaxing Kerr nonlinearity...
This thesis advocates for a physical mechanism which induces significant asymmetric wave-transport i...
One dimensional lattice with an on-site cubic-quintic nonlinear response described by a cubic-quinti...
Using an approach to open quantum systems based on the effective non-Hermitian Hamiltonian, we fully...
While equilibrium properties of mesoscopic systems are well understood, many questions are still deb...
We observe that the asymmetric transmission (AT) through photonic systems with a resonant chiral res...
The development of new artificial structures and materials is today one of the major research challe...