Significant Efficiency Gains in Quantum Energy Teleportation with 3-Qubit System

Recent advancements in quantum physics have introduced a novel method for Quantum Energy Teleportation (QET) utilizing a 3-qubit system. This method builds upon earlier work that demonstrated energy transfer using a 2-qubit system, which achieved an average energy retrieval efficiency of 35.4%. The new approach, presented by Md Shoyib Hassan, Syed Emad Uddin Shubha, and M.R.C Mahdy, enhances this efficiency significantly, reaching an average of 65.5%.

The researchers incorporated a new 3-qubit ground state Hamiltonian, which adheres to the constraints of zero mean energy and anti-commutative properties of operations between the sender and receiver. This improvement not only marks a substantial step forward in practical quantum energy applications but also lays the groundwork for future research in quantum energy teleportation and related technologies.

The findings suggest that the enhanced efficiency could have significant implications for the development of quantum technologies, potentially leading to more effective energy transfer methods in various applications. The paper detailing this research can be cited as follows: "Enhanced Quantum Energy Teleportation using a 3-Qubit System" by Md Shoyib Hassan et al., available on arXiv under the identifier arXiv:2408.07997.