Add to ORKGWe introduce special photonic lattices where we can, in principle, selectively excite the constitutive quantum eigenstates. Hence, through the excitation of such systems with single-photon W-states we can readily generate entanglement of the so-called W-eigenstates. © OSA 2014
The main work done along my PhD is related to entangled states composed of a single photon. This sta...
The efficient generation of entanglement is an essential requirement for quantum communications; how...
The quantum entanglement between two excitons in two-dimensional materials, embedded in an optical m...
We introduce special photonic lattices where we can, in principle, selectively excite the constituti...
We introduce a new perfect state transfer protocol based on single-photon W-eigenstates of photonic ...
We experimentally demonstrate the generation of high-order photon encoded W-states involving up to 1...
We experimentally realize the generation of high-order photon encoded W-states involving up to 16 op...
We propose a versatile platform for generating multipartite W-states in appropriately engineered on-...
Photon states can be represented using many families of orthogonal fields, such as plane waves, Lagu...
Quantum superposition is the quantum-mechanical property of a particle whereby it inhabits several o...
Quantum superposition is the quantum-mechanical property of a particle whereby it inhabits several o...
We experimentally demonstrate the generation of high-order photon encoded W-states involving up to 1...
We consider single photon realization of generalized N-qubit perfect W-states which are suitable for...
In large quantum systems, multipartite entanglement can be found in many inequivalent classes. Prepa...
Optical quantum systems are ideal for testing quantum mechanical laws, but they also find many uses ...
The main work done along my PhD is related to entangled states composed of a single photon. This sta...
The efficient generation of entanglement is an essential requirement for quantum communications; how...
The quantum entanglement between two excitons in two-dimensional materials, embedded in an optical m...
We introduce special photonic lattices where we can, in principle, selectively excite the constituti...
We introduce a new perfect state transfer protocol based on single-photon W-eigenstates of photonic ...
We experimentally demonstrate the generation of high-order photon encoded W-states involving up to 1...
We experimentally realize the generation of high-order photon encoded W-states involving up to 16 op...
We propose a versatile platform for generating multipartite W-states in appropriately engineered on-...
Photon states can be represented using many families of orthogonal fields, such as plane waves, Lagu...
Quantum superposition is the quantum-mechanical property of a particle whereby it inhabits several o...
Quantum superposition is the quantum-mechanical property of a particle whereby it inhabits several o...
We experimentally demonstrate the generation of high-order photon encoded W-states involving up to 1...
We consider single photon realization of generalized N-qubit perfect W-states which are suitable for...
In large quantum systems, multipartite entanglement can be found in many inequivalent classes. Prepa...
Optical quantum systems are ideal for testing quantum mechanical laws, but they also find many uses ...
The main work done along my PhD is related to entangled states composed of a single photon. This sta...
The efficient generation of entanglement is an essential requirement for quantum communications; how...
The quantum entanglement between two excitons in two-dimensional materials, embedded in an optical m...