Add to ORKGWe propose a versatile platform for generating multipartite W-states in appropriately engineered on-chip photonic lattices. One and two dimensional waveguide configurations are investigated for producing W-states with predesigned probability amplitudes and relative phases. © 2013 The Optical Society
Quantum physics phenomena, entanglement and coherence, are crucial for quantum information protocols...
We propose and analyze a generic technique to engineer the two-photon quantum state generated by spo...
We consider single photon realization of generalized N-qubit perfect W-states which are suitable for...
We propose a versatile platform for generating multipartite W-states in appropriately engineered on-...
We propose a versatile approach for generating multipartite W states in predesigned on-chip multipor...
In large quantum systems, multipartite entanglement can be found in many inequivalent classes. Prepa...
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 realize the generation of high-order photon encoded W-states involving up to 16 op...
We introduce special photonic lattices where we can, in principle, selectively excite the constituti...
We experimentally demonstrate the generation of high-order photon encoded W-states involving up to 1...
We demonstrate a nonlinear AlGaAs photonic chip generating biphotons with nonclassical spatial corre...
We experimentally demonstrate the generation of high-order photon encoded W-states involving up to 1...
Beyond the use of genuine monolithic integrated optical platforms, we report here a hybrid strategy ...
Bright sources of on-demand single photons are a fundamental resource [1], required for linear optic...
Quantum physics phenomena, entanglement and coherence, are crucial for quantum information protocols...
We propose and analyze a generic technique to engineer the two-photon quantum state generated by spo...
We consider single photon realization of generalized N-qubit perfect W-states which are suitable for...
We propose a versatile platform for generating multipartite W-states in appropriately engineered on-...
We propose a versatile approach for generating multipartite W states in predesigned on-chip multipor...
In large quantum systems, multipartite entanglement can be found in many inequivalent classes. Prepa...
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 realize the generation of high-order photon encoded W-states involving up to 16 op...
We introduce special photonic lattices where we can, in principle, selectively excite the constituti...
We experimentally demonstrate the generation of high-order photon encoded W-states involving up to 1...
We demonstrate a nonlinear AlGaAs photonic chip generating biphotons with nonclassical spatial corre...
We experimentally demonstrate the generation of high-order photon encoded W-states involving up to 1...
Beyond the use of genuine monolithic integrated optical platforms, we report here a hybrid strategy ...
Bright sources of on-demand single photons are a fundamental resource [1], required for linear optic...
Quantum physics phenomena, entanglement and coherence, are crucial for quantum information protocols...
We propose and analyze a generic technique to engineer the two-photon quantum state generated by spo...
We consider single photon realization of generalized N-qubit perfect W-states which are suitable for...