Add to ORKGWe present an atomic prism spectrometer that utilizes the steep linear dispersion between two strongly absorbing hyperfine resonances of rubidium. We resolve spectral lines 50 MHz apart and, utilizing a larger part of the available spectrum than only between the two resonances, we spatially separate collinear pump, signal, and idler beams resulting from a four-wave mixing process. Due to the high transparency possible between the resonances, these results have applications in the filtering of narrow-band entangled photons and interaction-free measurements
A triggering device sensitive to a single photon is discussed. It is based on a balanced quantum non...
Quantum buffers will be an essential part of quantum-information networks. A buffer that can preserv...
We demonstrate a simple experimental method for creating entangled qudits. Using transverse-momentum...
We present an atomic prism spectrometer that utilizes the steep linear dispersion between two strong...
Through periodic index modulation, we create two different types of photonic structures in a heated ...
Digital signal processing, holography, and quantum and classical information processing rely heavily...
We use weak-value amplification to enhance the polarization-sensitive fast-light effect from induced...
We consider group delay and broadening using two strongly absorbing and widely spaced resonances. We...
The entanglement of squeezed light beams is critical for quantum optical applications, but has so fa...
The direct transformation of the energy of an incident high-energy photon into a measurable potentia...
Seeding Brillouin scattering with a sufficiently efficient source of coherent phonons has the potent...
We report observations of the dynamics of electromagnetically induced transparency (EIT) in a Λ syst...
Bhati and Arvind (2022)[Phys. Lett. A, 127955 (2022)] recently argued that in a specially designed e...
We study transverse spatial coherence of approximately localized single-photon states. We demonstrat...
Here, we present recent developments in the field of quantum imaging focusing on the high dimensiona...
A triggering device sensitive to a single photon is discussed. It is based on a balanced quantum non...
Quantum buffers will be an essential part of quantum-information networks. A buffer that can preserv...
We demonstrate a simple experimental method for creating entangled qudits. Using transverse-momentum...
We present an atomic prism spectrometer that utilizes the steep linear dispersion between two strong...
Through periodic index modulation, we create two different types of photonic structures in a heated ...
Digital signal processing, holography, and quantum and classical information processing rely heavily...
We use weak-value amplification to enhance the polarization-sensitive fast-light effect from induced...
We consider group delay and broadening using two strongly absorbing and widely spaced resonances. We...
The entanglement of squeezed light beams is critical for quantum optical applications, but has so fa...
The direct transformation of the energy of an incident high-energy photon into a measurable potentia...
Seeding Brillouin scattering with a sufficiently efficient source of coherent phonons has the potent...
We report observations of the dynamics of electromagnetically induced transparency (EIT) in a Λ syst...
Bhati and Arvind (2022)[Phys. Lett. A, 127955 (2022)] recently argued that in a specially designed e...
We study transverse spatial coherence of approximately localized single-photon states. We demonstrat...
Here, we present recent developments in the field of quantum imaging focusing on the high dimensiona...
A triggering device sensitive to a single photon is discussed. It is based on a balanced quantum non...
Quantum buffers will be an essential part of quantum-information networks. A buffer that can preserv...
We demonstrate a simple experimental method for creating entangled qudits. Using transverse-momentum...