Quantum physics phenomena, entanglement and coherence, are crucial for quantum
information protocols, but understanding these in systems with more than two parts is …

Nuclear magnetic resonance is arguably both the best available quantum technology for
implementing simple quantum computing experiments and the worst technology for building …

We consider the problem of engineering the two-excitation Dicke state| D 2 3〉 in a three-
qubit system with all-to-all Ising-type qubit-qubit interaction, which is also subject to global …

Interconversions of W and Greenberger-Horne-Zeilinger states in various physical systems
have recently been attracting considerable attention. We address this problem in the fairly …

Important tasks in cavity quantum electrodynamics include the generation and control of
quantum states of spatially separated particles distributed in different cavities. An interesting …

W state is a key resource in quantum communication. Fusion technology has been proven to
be a good candidate for preparing a large-size W state from two or more small-size W states …

Instruction scheduling is a key compiler optimization in quantum computing, just as it is for
classical computing. Current schedulers optimize for data parallelism by allowing …

Multiparticle entanglement has important applications in quantum information and quantum
computing. Here, we propose two schemes to fuse large-scale entangled W states and GHZ …

We present a deterministic scheme for generating large-scale atomic W states in a cavity
QED system via a simple expansion mechanism, which is realized only by a detuned …

The creation of multipartite entangled states is a key task of quantum information processing.
Among the various implementations, shortcut to adiabaticity (STA) offers a fast and robust …