Add to ORKGWe experimentally demonstrate deterministic modification of the spectraltemporal mode structure of quantum states of light. The method is based upon a unitary transformation implemented with electro-optic phase modulation and which preserves the non-classical nature of the single photon
We present a method to produce pure single photons with an arbitrary designed temporal shape in a he...
In the twentieth century, the founding fathers of quantum mechanics explored the implications of the...
We describe the simplest single-photon encoding schemes and introduce the concept of a quantum optic...
Creating and controlling well-defined single-photon states is important for many quantum enhanced te...
We define a class of multi-mode single photon states suitable for quantum information applications. ...
In this work, we use wavefront shaping methods to control non-classical states of light propagating ...
The ability to prepare arbitrary quantum states within a certain Hilbert space is the holy grail of ...
We investigate evolution of multimode quantum light in electro-optical modulator, using semiclassica...
A quantum state of light is the excitation of a particular spatiotemporal mode of the electromagneti...
We study distinguishing information in the context of photonic quantum interference tailored for pra...
Quantum optics experiments frequently involve interfering single photons and coherent states. In the...
We demonstrate a method to transmute classical light into a quantum state without invoking any nonli...
The control of light scattering is essential in many quantum optical experiments. Wavefront shaping ...
We investigate the possibility of using a scattering medium as a highly multimode platform for imple...
We demonstrate the ability to program the wavefront of single-photon states produced by spontaneous ...
We present a method to produce pure single photons with an arbitrary designed temporal shape in a he...
In the twentieth century, the founding fathers of quantum mechanics explored the implications of the...
We describe the simplest single-photon encoding schemes and introduce the concept of a quantum optic...
Creating and controlling well-defined single-photon states is important for many quantum enhanced te...
We define a class of multi-mode single photon states suitable for quantum information applications. ...
In this work, we use wavefront shaping methods to control non-classical states of light propagating ...
The ability to prepare arbitrary quantum states within a certain Hilbert space is the holy grail of ...
We investigate evolution of multimode quantum light in electro-optical modulator, using semiclassica...
A quantum state of light is the excitation of a particular spatiotemporal mode of the electromagneti...
We study distinguishing information in the context of photonic quantum interference tailored for pra...
Quantum optics experiments frequently involve interfering single photons and coherent states. In the...
We demonstrate a method to transmute classical light into a quantum state without invoking any nonli...
The control of light scattering is essential in many quantum optical experiments. Wavefront shaping ...
We investigate the possibility of using a scattering medium as a highly multimode platform for imple...
We demonstrate the ability to program the wavefront of single-photon states produced by spontaneous ...
We present a method to produce pure single photons with an arbitrary designed temporal shape in a he...
In the twentieth century, the founding fathers of quantum mechanics explored the implications of the...
We describe the simplest single-photon encoding schemes and introduce the concept of a quantum optic...