Add to ORKGWe propose and demonstrate a method for measuring the joint spectrum of photon pairs via Fourier spectroscopy. The biphoton spectral intensity is computed from a two-dimensional interferogram of coincidence counts. The method has been implemented for a type-I downconversion source using a pair of common-path Mach-Zender interferometers based on Soleil compensators. The experimental results agree well with calculated frequency correlations that take into account the effects of coupling into single-mode fibers. The Fourier method is advantageous over scanning spectrometry when detectors exhibit high dark count rates leading to dominant additive noise
We propose and demonstrate a method for measuring the spectral density matrix of a single photon pul...
We report a novel Fourier transform method for measuring two-photon excitation spectra. We demonstra...
Spectral correlation of photon pairs generated in dispersion shifted fiber by a pulsed pump is theo...
The possibilities of spectroscopic investigations by means of correlated photon pairs (biphotons) ge...
International audienceIn this paper, we investigate the influence of the symmetry of the biphoton wa...
In this paper, we investigate the influence of the symmetry of the biphoton wavefunction on the coin...
International audienceWe report a novel Fourier transform method of measuring two-photon excitation ...
The ability to manipulate and measure the time-frequency structure of quantum light is useful for in...
Interaction‐free measurement (IFM)‐based single‐photon interference is developed as a powerful platf...
We describe a method to probe the spectral fluctuations of a transition over broad ranges of frequen...
Quantum spectroscopy was performed using the frequency-entangled broadband photon pairs generated by...
Photon pair sources have wide ranging applications in a variety of quantum photonic experiments and ...
Quantum correlation is a key concept characterizing the properties of quantum light sources and is i...
We spectrally resolve the second-order coherence of biphoton pairs using a time-of-flight fiber spec...
We spectrally resolve the second-order coherence of biphoton pairs using a time-of-flight fiber spec...
We propose and demonstrate a method for measuring the spectral density matrix of a single photon pul...
We report a novel Fourier transform method for measuring two-photon excitation spectra. We demonstra...
Spectral correlation of photon pairs generated in dispersion shifted fiber by a pulsed pump is theo...
The possibilities of spectroscopic investigations by means of correlated photon pairs (biphotons) ge...
International audienceIn this paper, we investigate the influence of the symmetry of the biphoton wa...
In this paper, we investigate the influence of the symmetry of the biphoton wavefunction on the coin...
International audienceWe report a novel Fourier transform method of measuring two-photon excitation ...
The ability to manipulate and measure the time-frequency structure of quantum light is useful for in...
Interaction‐free measurement (IFM)‐based single‐photon interference is developed as a powerful platf...
We describe a method to probe the spectral fluctuations of a transition over broad ranges of frequen...
Quantum spectroscopy was performed using the frequency-entangled broadband photon pairs generated by...
Photon pair sources have wide ranging applications in a variety of quantum photonic experiments and ...
Quantum correlation is a key concept characterizing the properties of quantum light sources and is i...
We spectrally resolve the second-order coherence of biphoton pairs using a time-of-flight fiber spec...
We spectrally resolve the second-order coherence of biphoton pairs using a time-of-flight fiber spec...
We propose and demonstrate a method for measuring the spectral density matrix of a single photon pul...
We report a novel Fourier transform method for measuring two-photon excitation spectra. We demonstra...
Spectral correlation of photon pairs generated in dispersion shifted fiber by a pulsed pump is theo...