We propose a fault-tolerant quantum computation scheme in a measurement-based manner
with finite-sized entangled resource states and encoded-fusion scheme with linear optics …

In Quantum Local Area Networks (QLANs)-the near-term building block of the Quantum
Internet-the choice of the physical network topology is not so restrictive and binding as in …

Fault-tolerant quantum computation can be achieved by creating constant-sized, entangled
resource states and performing entangling measurements on subsets of their qubits. Linear …

Realizing photonic graph states, crucial in various quantum protocols, is challenging due to
the absence of deterministic entangling gates in linear optics. To address this, emitter qubits …

We study the notion of $ k $-stabilizer universal quantum state, that is, an $ n $-qubit
quantum state, such that it is possible to induce any stabilizer state on any $ k $ qubits, by …

In quantum computing and quantum information processing, graph states are a specific type
of quantum states which are commonly used in quantum networking and quantum error …

Photonics offers a promising platform for implementations of measurement-based quantum
computing. Recently proposed fusion-based architectures aim to achieve universality and …

GraphiQ is a versatile open-source framework for designing photonic graph state generation
schemes, with a particular emphasis on photon-emitter hybrid circuits. Built in Python …

In the near to mid future, Quantum Local Area Networks (QLANs)–the fundamental building
block of the Quantum Internet–will unlike exhibit physical topologies characterized by …

In the near to mid future, Quantum Local Area Networks (QLANs)--the fundamental building
block of the Quantum Internet--will unlike exhibit physical topologies characterized by …