Add to ORKGA multiparticle quantum superposition state has been generated by a novel phase-selective parametric amplifier of an entangled two-photon state. This realization is expected to open a new field of investigations on the persistence of the validity of the standard quantum theory for systems of increasing complexity, in a quasi decoherence-free environment. Because of its nonlocal structure the new system is expected to play a relevant role in the modern endeavor on quantum information and in the basic physics of entanglement
We investigate multiphoton states generated by high-gain optical parametric amplification of a singl...
NOON states are entangled states of great interest in the development of quantum technologies, becau...
Entanglement is a key resource in many quantum information schemes andin the last years the research...
A multiparticle quantum superposition state has been generated by a novel phase-selective parametric...
The high resilience to decoherence shown by a recently discovered macroscopic quantum superposition ...
This work reports on an extended research endeavor focused on the theoretical and experimental reali...
We investigate the multiparticle quantum superposition and the persistence of bipartite entanglement...
The present work investigates quantum phenomena with large size systems generated in the microscopic...
We investigate multiphoton states generated by high‐gain optical parametric amplification of a singl...
Pure superposition states obtained with two-level atoms, photons, nuclear spins, etc. are of great i...
In the present work we propose to realize a macroscopic light-matter entangled state, obtained by th...
In the last few decades the emergence of a new field of research dealing with information at the qua...
We investigate the multiparticle quantum superposition and the persistence of multipartite entanglem...
Pure superposition states obtained with two-level atoms, photons, nuclear spins, etc. are of great i...
In this work we present the realization of multiphoton quantum states, obtained by optical parametri...
We investigate multiphoton states generated by high-gain optical parametric amplification of a singl...
NOON states are entangled states of great interest in the development of quantum technologies, becau...
Entanglement is a key resource in many quantum information schemes andin the last years the research...
A multiparticle quantum superposition state has been generated by a novel phase-selective parametric...
The high resilience to decoherence shown by a recently discovered macroscopic quantum superposition ...
This work reports on an extended research endeavor focused on the theoretical and experimental reali...
We investigate the multiparticle quantum superposition and the persistence of bipartite entanglement...
The present work investigates quantum phenomena with large size systems generated in the microscopic...
We investigate multiphoton states generated by high‐gain optical parametric amplification of a singl...
Pure superposition states obtained with two-level atoms, photons, nuclear spins, etc. are of great i...
In the present work we propose to realize a macroscopic light-matter entangled state, obtained by th...
In the last few decades the emergence of a new field of research dealing with information at the qua...
We investigate the multiparticle quantum superposition and the persistence of multipartite entanglem...
Pure superposition states obtained with two-level atoms, photons, nuclear spins, etc. are of great i...
In this work we present the realization of multiphoton quantum states, obtained by optical parametri...
We investigate multiphoton states generated by high-gain optical parametric amplification of a singl...
NOON states are entangled states of great interest in the development of quantum technologies, becau...
Entanglement is a key resource in many quantum information schemes andin the last years the research...