We consider interactions as bidirectional channels. We investigate the capacities for interaction Hamiltonians and nonlocal unitary gates to generate entanglement and transmit classical information. We give analytic expressions for the entanglement generating capacity and entanglement-assisted one-way classical communication capacity of interactions, and show that these quantities are additive, so that the asymptotic capacities equal the corresponding 1-shot capacities. We give general bounds on other capacities, discuss some examples, and conclude with some open questions
We consider how much entanglement can be produced by a nonlocal two-qubit unitary operation, UAB—the...
It is known that entangling capacities of bipartite unitary operations may be used to place upper bo...
We calculate the asymptotic entanglement capacity of the Ising interaction sigma(z) circle times sig...
We consider interactions as bidirectional channels. We investigate the capacities for interaction Ha...
We consider communication between two parties using a bipartite quantum operation, which constitutes...
We present numerical results on the capacities of two-qubit unitary operations for performing commun...
Bipartite quantum interactions have applications in a number of different areas of quantum physics, ...
A bipartite quantum interaction corresponds to the most general quantum interaction that can occur b...
Consider two quantum systems A and B interacting according to a product Hamiltonian H = H-A circle t...
We study the optimal way of creating bi-partite entanglement using a general two-qubit interaction. ...
A nonlocal unitary transformation of two-qubits occurs when some Hamiltonian interaction couples the...
We quantify the capability of creating entanglement for a general physical interaction acting on two...
Nonlocal operations underpin both classical communication and entanglement generation. By considerin...
A unitary interaction coupling two parties enables quantum or classical communication in both the fo...
Two-qubit operations may be characterized by their capacities for communication, both with and witho...
We consider how much entanglement can be produced by a nonlocal two-qubit unitary operation, UAB—the...
It is known that entangling capacities of bipartite unitary operations may be used to place upper bo...
We calculate the asymptotic entanglement capacity of the Ising interaction sigma(z) circle times sig...
We consider interactions as bidirectional channels. We investigate the capacities for interaction Ha...
We consider communication between two parties using a bipartite quantum operation, which constitutes...
We present numerical results on the capacities of two-qubit unitary operations for performing commun...
Bipartite quantum interactions have applications in a number of different areas of quantum physics, ...
A bipartite quantum interaction corresponds to the most general quantum interaction that can occur b...
Consider two quantum systems A and B interacting according to a product Hamiltonian H = H-A circle t...
We study the optimal way of creating bi-partite entanglement using a general two-qubit interaction. ...
A nonlocal unitary transformation of two-qubits occurs when some Hamiltonian interaction couples the...
We quantify the capability of creating entanglement for a general physical interaction acting on two...
Nonlocal operations underpin both classical communication and entanglement generation. By considerin...
A unitary interaction coupling two parties enables quantum or classical communication in both the fo...
Two-qubit operations may be characterized by their capacities for communication, both with and witho...
We consider how much entanglement can be produced by a nonlocal two-qubit unitary operation, UAB—the...
It is known that entangling capacities of bipartite unitary operations may be used to place upper bo...
We calculate the asymptotic entanglement capacity of the Ising interaction sigma(z) circle times sig...