The interaction of an atom with an electro-magnetic field is discussed in the presence of a
time periodic external modulating force. It is explained that a control on atom by electro …

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 …

We propose a scheme for generation of highly non-classical entangled field states of the
type in the cavity QED scenario. The scheme utilizes an atomic analogue of the Mach …

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 atom interferometric techniques for the generation of Bell, NOON and W states
of an electromagnetic field in high-Q cavities. The fundamental constituent of these …

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 …

Hyperentangled states have boosted many quantum informatics tasks tremendously due to
their high information content per quantum entity. Until now, however, the engineering and …

We present an experimentally feasible method, based on currently available cavity QED
technology, to generate n-partite linear cluster and graph states in external degree of …