The neutral atoms quantized atomic external momenta states are widely used to avoid the
decoherence risk and to complete numerous quantum information protocols such as …

Atom matterwave interferometry requires mirror and beam splitter pulses that are robust to
inhomogeneities in field intensity, magnetic environment, atom velocity, and Zeeman …

Hyperentangled states have enhanced channel capacity in quantum processing and have
yieldedevident increased communication speed in quantum informatics as a consequence …

We propose a novel scheme to engineer the atomic hyperentangled cluster and ring graph
states invoking cavity-QED technique for applicative relevance to quantum biology and …

Hyperentangled states are vitally important for resource economy as they have exponential
encoding capabilities per quantum entity. Apart from photonic hyperentanglements, only few …

In this paper, we theoretically study the concept of the wave–particle duality of two entangled
neutral Bragg diffracted atoms. This is an extension of a recent study where the same idea …

Superdense coding (SDC) is a popular protocol demonstrating the potential of using
quantum mechanics to transfer data, where The sender (Alice) can transfer 2 bits of classical …

Wheeler's delayed-choice experiment highlights strange features of quantum theory such as
pre-sensing of the experimental setup by the quantum object and the role of time. A recent …

We propose a cavity-QED-based scheme of generating entanglement between atoms. The
scheme is scalable to an arbitrary number of atoms, and can be used to generate a variety of …

Quantum three-box paradox is one of the major mysteries revealed through two-state vector
formalism of the quantum theory in conjunction with the weak measurements. We suggest a …