Add to ORKGWe report on the first demonstration of a fully fiberized quantum network by using a fiber-integrated metamaterial as a dissipative switching element. Utilizing the coherent absorption phenomenon in plasmonic metamaterials we achieve high-contrast control of the single-photon absorption probability. We also demonstrate switching application by deploying a feedback mechanism to actively control the phase fluctuations of the network
Photonic circuits require elements that can control optical signals with other optical signals. Ultr...
All-optical encryption of information in fibre telecommunication networks offers lower complexity an...
We demonstrate selective transmission and absorption of 1-ps pulses, pulse shaping and 1-ps dark pul...
In this report we provide the first demonstration of a fully fiberized quantum network with a fiber-...
In this report we provide the first demonstration of a fully fiberized quantum network with a fiber-...
Large distance implementation of quantum communication technologies requires coherent control of sin...
Large distance implementation of quantum communication technologies requires coherent control of sin...
Coherent optical fiber networks are extremely sensitive to thermal, mechanical, and acoustic noise, ...
Recently, coherent control of the optical response of thin films in standing waves has attracted con...
We report on the use of fiber-integrated plasmonic metamaterial absorbers in signal processing appli...
We demonstrate manipulation of a photonic qubit, encoded in a dual-rail basis, by a plasmonic metama...
This Thesis merges the physics of metamaterials with optical fibre technology in order to demonstrat...
We report on the first experimental verification of the coherent perfect absorption (CPA) process in...
We demonstrate highly efficient switching of optical signals between two optical fibers controlled b...
We demonstrate that in a nonlinear fibre optical network coherent interaction of light with a plasmo...
Photonic circuits require elements that can control optical signals with other optical signals. Ultr...
All-optical encryption of information in fibre telecommunication networks offers lower complexity an...
We demonstrate selective transmission and absorption of 1-ps pulses, pulse shaping and 1-ps dark pul...
In this report we provide the first demonstration of a fully fiberized quantum network with a fiber-...
In this report we provide the first demonstration of a fully fiberized quantum network with a fiber-...
Large distance implementation of quantum communication technologies requires coherent control of sin...
Large distance implementation of quantum communication technologies requires coherent control of sin...
Coherent optical fiber networks are extremely sensitive to thermal, mechanical, and acoustic noise, ...
Recently, coherent control of the optical response of thin films in standing waves has attracted con...
We report on the use of fiber-integrated plasmonic metamaterial absorbers in signal processing appli...
We demonstrate manipulation of a photonic qubit, encoded in a dual-rail basis, by a plasmonic metama...
This Thesis merges the physics of metamaterials with optical fibre technology in order to demonstrat...
We report on the first experimental verification of the coherent perfect absorption (CPA) process in...
We demonstrate highly efficient switching of optical signals between two optical fibers controlled b...
We demonstrate that in a nonlinear fibre optical network coherent interaction of light with a plasmo...
Photonic circuits require elements that can control optical signals with other optical signals. Ultr...
All-optical encryption of information in fibre telecommunication networks offers lower complexity an...
We demonstrate selective transmission and absorption of 1-ps pulses, pulse shaping and 1-ps dark pul...