Add to ORKGIn this report we provide the first demonstration of a fully fiberized quantum network with a fiber-integrated metamaterial as a dissipative switching element. Using the phenomenon of coherent absorption in plasmonic metamaterials we achieve high-contrast control of the single photon absorption probability and demonstrate switching application
Coherent interaction of two light waves on a film of subwavelength thickness provides remarkable opp...
With a plasmonic metamaterial absorber of sub-wavelength thickness we demonstrated that coherent abs...
The development of coherent optical networks and processing are catalysing increasing attention as s...
In this report we provide the first demonstration of a fully fiberized quantum network with a fiber-...
We report on the first demonstration of a fully fiberized quantum network by using a fiber-integrate...
Large distance implementation of quantum communication technologies requires coherent control of sin...
Large distance implementation of quantum communication technologies requires coherent control of sin...
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...
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...
Coherent optical fiber networks are extremely sensitive to thermal, mechanical, and acoustic noise, ...
We demonstrate manipulation of a photonic qubit, encoded in a dual-rail basis, by a plasmonic metama...
We report recent experiments demonstrating that coherently controlled redistribution of energy at pl...
We demonstrate that in a nonlinear fibre optical network coherent interaction of light with a plasmo...
Coherent interaction of two light waves on a film of subwavelength thickness provides remarkable opp...
With a plasmonic metamaterial absorber of sub-wavelength thickness we demonstrated that coherent abs...
The development of coherent optical networks and processing are catalysing increasing attention as s...
In this report we provide the first demonstration of a fully fiberized quantum network with a fiber-...
We report on the first demonstration of a fully fiberized quantum network by using a fiber-integrate...
Large distance implementation of quantum communication technologies requires coherent control of sin...
Large distance implementation of quantum communication technologies requires coherent control of sin...
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...
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...
Coherent optical fiber networks are extremely sensitive to thermal, mechanical, and acoustic noise, ...
We demonstrate manipulation of a photonic qubit, encoded in a dual-rail basis, by a plasmonic metama...
We report recent experiments demonstrating that coherently controlled redistribution of energy at pl...
We demonstrate that in a nonlinear fibre optical network coherent interaction of light with a plasmo...
Coherent interaction of two light waves on a film of subwavelength thickness provides remarkable opp...
With a plasmonic metamaterial absorber of sub-wavelength thickness we demonstrated that coherent abs...
The development of coherent optical networks and processing are catalysing increasing attention as s...