Simnet - SiV-based networking simulations

This toolkit enables the simulation of entanglement-based experiments for various matter-based, multi-node quantum network topologies. This version is designed for quantum registers modeled by cavity-QED with reflection-based gates, using weak coherent sources as photonic time bins to construct qubits and qudits. Each interaction step along the time-bin's path is encoded using a beam splitter Hamiltonian. This approach is valid in our case, as the number of excitations < 1 at relevant timescales. The toolkit provides tools for simulating distributed quantum state propagation through optical fiber networks and analyzing the resulting quantum states.

Simnet - SiV-based networking simulations

This toolkit enables the simulation of entanglement-based experiments for various matter-based, multi-node quantum network topologies. This version is designed for quantum registers modeled by cavity-QED with reflection-based gates, using weak coherent sources as photonic time bins to construct qubits and qudits. Each interaction step along the time-bin's path is encoded using a beam splitter Hamiltonian. This approach is valid in our case, as the number of excitations < 1 at relevant timescales. The toolkit provides tools for simulating distributed quantum state propagation through optical fiber networks and analyzing the resulting quantum states.