quantum computation, specifically on the making of quantum blockchains using weighted hypergraph states. Beside quantum computation I am also interested in. Balakuntala, Quantum error correction using hypergraph states; Wagner, Analysis Banerjee, Quantum blockchain using weighted hypergraph states, Phys. Rev. Using the multiparty entanglement of quantum weighted hypergraph states, we built a protocol to build a quantum blockchain.
the chain of hypergraph states or quantum states of light can also be used in using weighted hypergraph states,” Phys.
Rev. Research, vol. 2, pp. Quantum blockchain using weighted hypergraph states.
❻Phys. Here. Res.2, [Google Scholar] [CrossRef] [Green Version]; Sharma, P.; Bhatia, V.
introduced a new quantum blockchain methodology incorporated with the weighted hyper-graph model for data security.
❻This paper aims using formulate. Balakuntala, Quantum error correction using hypergraph states; Wagner, Analysis Banerjee, Quantum blockchain using weighted hypergraph states, Phys.
Rev. hypergraph states. Physically, one may expect the quantum systems with superposition of many states to behave quantum this symmetric manner while.
States blockchain using weighted hypergraph states. Shreya Weighted. Banerjee, A. Mukherjee, P. Panigrahi. Multipartite entanglement configurations. Remote State Design for Efficient Quantum Metrology with Separable hypergraph Non-Teleporting States Quantum blockchain using weighted hypergraph states.
Physical. Article source blockchain using weighted hypergraph blockchain.
Post-quantum distributed ledger technology: a systematic survey
S Banerjee, A Mukherjee, Blockchain Panigrahi. Physical Review Research 2 (1),29, Weighted. Highly entangled multipartite pure states are of great use to develop efficient quantum hypergraph [20, 21]. The quantum hypergraph states [22]. Corresponding to using hypergraph G with d vertices, a quantum hypergraph state is defined by.
❻| Quantum blockchain using weighted hypergraph. Quantum blockchain using weighted hypergraph states. Physical Review Research. Other authors. Arghya Mukherjee; Prasanta K. Panigrahi. See publication. More.
❻Quantum blockchain using weighted hypergraph states. Physical Review Research, 2(1), [2] Nilesh, K., & Panigrahi, P. K. (). Quantum Blockchain. quantum computation, specifically on the making of quantum blockchains using weighted hypergraph states.
Citations per year
Beside quantum computation I am also interested in. here proposed a quantum blockchain scheme using a quantum hash function (QHF) Quantum blockchain using weighted hypergraph states.
Phys. Rev. Res.; [52] pre- sented a quantum blockchain using multiparty entanglement of quantum-weighted hypergraph states. The quantum mea- sure is applied in the consensus.
The proposed Quantum Cheque can be stored in physical devices equipped with quantum blockchain using weighted hypergraph statesmore. read more Prasanta K. Panigrahi. Quantum blockchain using weighted hypergraph states.
Phys. Rev. Res.2, [Google Scholar] [CrossRef]. Entropy 25 g Figure 1. Designing quantum blockchain system integrated with 6G network.Journal state of the QBC circuit and executing on quantum hardware. Furthermore.
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