Add to ORKGTo measure quantum features in a classical world constrains us to extend the classical technology to the limit, inventing and discovering new schemes to use the classical devices, while reducing and filtering the sources of noise. Balanced detectors, e.g. when measuring a low- noise laser, have become an exceptional tool to attain the shot-noise level, i.e., the standard quantum limit for measuring light. To detect light pulses at this level requires to decreasing and also to filtering all other sources of noise, namely electronic and technical noise. The aim of this work is to provide a new tool for filtering technical and electronic noises present in the pulses of light. It is especially relevant for signal processing methods in quantum ...
The nonlocal correlations of entangled systems are a feature inherent to quantum theory that is fund...
Optical magnetometers use magnetically-sensitive atomic ensembles and optical read-out to detect the...
Photons are good candidates for carrying quantum information because they are very stable particles:...
To measure quantum features in a classical world constrains us to extend the classical technology to...
Nowadays there is a considerable progress in optical magnetometry and spin noise spectroscopy, which...
Quantum physics is arguably both the most successful and the most counterintuitive physical theory ...
(English) Entangled photon pairs can enhance optical imaging capabilities. Phase imaging allows dete...
In this manuscript we present an experimental and theoretical investigation of quantum-noise-limited...
The ability to manipulate frequency of light, through parametric frequency conversion sources based ...
Non-classical correlations, usually referred as entanglement, are ones of the most studied and discu...
This work reports on the construction of a new-generation system capable to create single-mode spino...
The goal of this thesis has been the development of a new class of advanced solid-state photonic sou...
High-repetition-rate femtosecond laser sources are essential laboratory tools for spectroscopy, micr...
A photonic quantum memory (QM) is a device that has the capability of storing a quantum state of lig...
The use of light, especially of laser light, is in many cases the most sensitive way to perform meas...
The nonlocal correlations of entangled systems are a feature inherent to quantum theory that is fund...
Optical magnetometers use magnetically-sensitive atomic ensembles and optical read-out to detect the...
Photons are good candidates for carrying quantum information because they are very stable particles:...
To measure quantum features in a classical world constrains us to extend the classical technology to...
Nowadays there is a considerable progress in optical magnetometry and spin noise spectroscopy, which...
Quantum physics is arguably both the most successful and the most counterintuitive physical theory ...
(English) Entangled photon pairs can enhance optical imaging capabilities. Phase imaging allows dete...
In this manuscript we present an experimental and theoretical investigation of quantum-noise-limited...
The ability to manipulate frequency of light, through parametric frequency conversion sources based ...
Non-classical correlations, usually referred as entanglement, are ones of the most studied and discu...
This work reports on the construction of a new-generation system capable to create single-mode spino...
The goal of this thesis has been the development of a new class of advanced solid-state photonic sou...
High-repetition-rate femtosecond laser sources are essential laboratory tools for spectroscopy, micr...
A photonic quantum memory (QM) is a device that has the capability of storing a quantum state of lig...
The use of light, especially of laser light, is in many cases the most sensitive way to perform meas...
The nonlocal correlations of entangled systems are a feature inherent to quantum theory that is fund...
Optical magnetometers use magnetically-sensitive atomic ensembles and optical read-out to detect the...
Photons are good candidates for carrying quantum information because they are very stable particles:...