D-dimensional chain teleportation method for random transmission based on measurement results of relay nodes

What is claimed is: 1. A d-dimensional chain teleportation method for random transmission based on measurement results of relay nodes, wherein two communicating parties are an information sender Alice and an information receiver Bob, a particle t carries an unknown quantum state and is held by the information sender Alice, Alice holds the particle t and a particle A 1 , a first intermediate node Charlie 1 holds a particle B 1 and a particle A 2 , a second intermediate node Charlie 2 holds a particle B 2 and a particle A 3 , . . . , and a k th (k=1, 2, 3, . . . , P) intermediate node Charlie k holds a particle B k and a particle A k+1 , wherein P is a positive integer, the information receiver Bob at a target node is a (P+2) th node in a multihop quantum teleportation system and holds a particle B P+1 , every two adjacent nodes share a two-bit Bell state quantum channel, to form a chain communication channel, and entangled channels have the same form and are: |φ A k B k =1/√{square root over ( d )}Σ j=0 d−1 |jj A k B k ( k= 1,2, . . . , P+ 1); P intermediate nodes make generalized Bell measurement on the two particles held by them respectively, to establish an entangled channel between the information sender Alice and the information receiver Bob; the P intermediate nodes respectively consider the connection condition of classical channels with the information sender Alice and the information receiver Bob, and transmit respective generalized Bell measurement results to Alice or Bob according to actual condition, Alice or Bob determines a matrix transformation operation to be performed according to the respective measurement results they receive and adjusts the entangled channel, so that at this time, a direct entangled channel between the information sender Alice and the information receiver Bob can be established; and the multihop quantum teleportation system is simplified into a single-hop teleportation system form, to perform a single-hop quantum teleportation process, the information sender Alice performs a joint Bell measurement on the held particle t and particle A 1 and transmits her measurement result to the information receiver Bob, and Bob performs a corresponding unitary operation on his particle B P+1 according to the received result to recover information of the transferred unknown quantum state. 2. The d-dimensional chain teleportation method for random transmission based on measurement results of relay nodes according to claim 1 , wherein when “the P intermediate nodes respectively consider the connection condition of classical channels with the information sender Alice and the information receiver Bob, and transmit respective generalized Bell measurement results to Alice or Bob according to actual condition, Alice or Bob determines the matrix transformation operation to be performed according to the respective measurement results they receive and adjusts the entangled channel”, an adjusted quantum channel system has the following form: ⁢  ϕ 〉 = ⁢ ( 1 d ) P + 1 ⁢ ( 1 d ) P - 1 ⁢ ∑ d - 1 m 1 , n 1 = 0 ⁢ ∑ m 2 , n 2 = 0 d - 1 ⁢ … ⁢ ⁢ ∑ m P , n P = 0 d - 1 ⁢  Φ m 1 ⁢ n 1