Add to ORKGWe show that quantum information may be transferred between atoms in different locations by using “phantom” or “dark” photons: the atoms are coupled through electromagnetic fields, but the corresponding field modes do not have to be fully populated. In the case where atoms are placed inside optical cavities, errors in quantum information processing due to photon absorption inside the cavity are diminished in this way. This effect persists up to intercavity distances of about a meter for the current levels of cavity losses, and may be useful for distributed quantum computing
An elementary quantum network operation involves storing a qubit state in an atomic quantum memory n...
A quantum network where the data stored, processed, and communicated consists of quantum bits, would...
We experimentally demonstrate a quantum communication protocol that enables frequency conversion and...
We show that quantum information may be transferred between atoms in different locations by using “p...
We show how the state of an atom trapped in a cavity can be teleported to an atom trapped in a dista...
We report on the coherent quantum state transfer from a two-level atomic system to a single photon. ...
Protocols for quantum communication between massive particles, such as atoms, are usually based on t...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2016.Cataloged from PD...
We demonstrate the reversible mapping of a coherent state of light with mean photon number n-bar ~= ...
One model for quantum networks1,2 is based on the probabilistic measurement of two photons, each ent...
The problem of long-distance teleportation of single-atom qubits via a common photonic channel is ex...
We describe schemes for transferring quantum states between light fields and the motion of a trapped...
We present a protocol for transfer of an unknown quantum state. The protocol is based on a two-mode ...
Quantum networks for the processing and distribution of quantum information could consist of quantum...
Quantum teleportation is one of the main paradigms in quantum information science. It is an importan...
An elementary quantum network operation involves storing a qubit state in an atomic quantum memory n...
A quantum network where the data stored, processed, and communicated consists of quantum bits, would...
We experimentally demonstrate a quantum communication protocol that enables frequency conversion and...
We show that quantum information may be transferred between atoms in different locations by using “p...
We show how the state of an atom trapped in a cavity can be teleported to an atom trapped in a dista...
We report on the coherent quantum state transfer from a two-level atomic system to a single photon. ...
Protocols for quantum communication between massive particles, such as atoms, are usually based on t...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2016.Cataloged from PD...
We demonstrate the reversible mapping of a coherent state of light with mean photon number n-bar ~= ...
One model for quantum networks1,2 is based on the probabilistic measurement of two photons, each ent...
The problem of long-distance teleportation of single-atom qubits via a common photonic channel is ex...
We describe schemes for transferring quantum states between light fields and the motion of a trapped...
We present a protocol for transfer of an unknown quantum state. The protocol is based on a two-mode ...
Quantum networks for the processing and distribution of quantum information could consist of quantum...
Quantum teleportation is one of the main paradigms in quantum information science. It is an importan...
An elementary quantum network operation involves storing a qubit state in an atomic quantum memory n...
A quantum network where the data stored, processed, and communicated consists of quantum bits, would...
We experimentally demonstrate a quantum communication protocol that enables frequency conversion and...