When two qubits are prepared in a mixture of two Bell states and exposed to local
transmission channels, the dynamics of steerability, Bell nonlocality, and average steered …

We investigate the behavior of tripartite entanglement and entropy disorder in three non-
interacting qubits that are first prepared in a mixture state containing Greenberger–Horne …

We investigate the preservation of quantum coherence and entanglement carried by the
three non-interacting qubits during their evolution in the presence of an external fluctuating …

We address the time evolution of quantum correlations (QCs) such as entanglement, purity,
and coherence for a model of two non-interacting qubits initially prepared as a maximally …

The uncertainty principle is a remarkable and fundamental feature in quantum mechanics
that suggests a significant lower bound to predict the results of arbitrary incompatible …

We investigate the dynamics and protection of entanglement and coherence in three non-
interacting qubits that are initially prepared as mixed entangled GHZ-like state when …

The type of environments to which a quantum system is exposed has a significant impact on
the quantum system's entanglement and coherence protection. In this regard, we investigate …

We address entanglement, coherence, and information protection in a system of four non-
interacting qubits coupled with different classical environments, namely: common, bipartite …

Quantum teleportation enables the transfer of quantum states across any distance and plays
a prominent role in quantum communication. In this paper, we theoretically investigate the …

Quantum teleportation allows the transmission of unknown quantum states over arbitrary
distances. This paper studies quantum teleportation via two non-interacting qubits coupled …