Finite-time synchronisation transmission of quantum signals between Jaynes-Cummings models based on coupling technology

“…Specifically, the phenomenon of synchronization, i.e., the temporal adjustment of events between two or more objects or subjects, see [1], is extensively studied by the scientific community today, and much of the effort is devoted to analyzing how to achieve synchronization in networks. The phenomenon of synchronization is found in multiple scientific areas, such as physics, chemistry, mathematics, and computer science, see [2][3][4][5][6][7][8][9]. From the point of view of graph theory [10], we can establish two of the main causes that directly affect achieving synchronization, (i) how the nodes are communicated and (ii) how the nodes are coupled, where the first cause can be divided in master-slave configuration (unidirectionally) and/or mutual configuration (bidirectionally), see [1,11], and the second cause could be divided into inner and/or outer coupling, that is the inner and outer connection topology, see [12][13][14][15][16][17][18][19][20][21] for the respective coupling.…”

Master–Slave Outer Synchronization in Different Inner–Outer Coupling Network Topologies

“…Specifically, the phenomenon of synchronization, i.e., the temporal adjustment of events between two or more objects or subjects, see [1], is extensively studied by the scientific community today, and much of the effort is devoted to analyzing how to achieve synchronization in networks. The phenomenon of synchronization is found in multiple scientific areas, such as physics, chemistry, mathematics, and computer science, see [2][3][4][5][6][7][8][9]. From the point of view of graph theory [10], we can establish two of the main causes that directly affect achieving synchronization, (i) how the nodes are communicated and (ii) how the nodes are coupled, where the first cause can be divided in master-slave configuration (unidirectionally) and/or mutual configuration (bidirectionally), see [1,11], and the second cause could be divided into inner and/or outer coupling, that is the inner and outer connection topology, see [12][13][14][15][16][17][18][19][20][21] for the respective coupling.…”

Master–Slave Outer Synchronization in Different Inner–Outer Coupling Network Topologies

“…In the last few years, the study of collective emergent behaviors in nature has gained significant attention from the scientific community. Synchronization phenomena are interesting collective behaviors found in multiple scientific areas, such as mathematics, computer science, physics, chemistry, etc., see [7][8][9][10][11][12]. Now, in addition to studies related to this behavior observed in nature, recent research has focused on analyzing networks with chaotic systems in order to prove that synchronization is possible.…”

Outer Topology Network Synchronization Using Chaotic Nodes with Hidden Attractors

Signal synchronization transmission within uncertain quantum network based on the differential–integral sliding mode technique