The protocols for joint remote preparation of an arbitrary two-particle pure state from a
spatially separated multi-sender to one receiver are presented in this paper. We first …

Joint remote state preparation is an important method to transmit quantum information with
more senders and higher security. In this paper, we present a deterministic joint remote state …

In this work, we present a novel and efficient information-processing way, multiparty-
controlled joint remote state preparation (MCJRSP), to transmit quantum information from …

We propose an efficient scheme for remotely preparing an arbitrary n-qubit equatorial state
via n two-qubit maximally entangled states. Compared to the former scheme (Wei et al. in …

In this paper, we propose two schemes to remotely split an arbitrary three-qubit state. The χ
and a GHZ state are used to construct the quantum channel. One scheme is completed by …

Joint remote state preparation (JRSP for short) can increase the security of quantum
communication by distributing different parts of classical information to different senders …

In this work, novel schemes for joint remote state preparation are presented, which involve N
senders and 2 receivers as well as N senders and 3 receivers. The receivers can …

Our purpose in this paper is to present a new tripartite quantum state sharing using partially
quantum resources. The first scheme is to probabilistically split an unknown n-particle state …

Several schemes for deterministic remote preparation of four-qubit W state by using four
Einstein-Podolsky-Rosen (EPR) pairs and two four-qubit GHZ entangled states as quantum …

We propose an efficient scheme for joint remote state preparation (JRSP) of arbitrary multi-
qubit states from two senders to one receiver with the 100% successful probability. Quantum …