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Area of Science:

  • Quantum Mechanics
  • Energy Transmission
  • Quantum Information

Background:

  • Faster-than-light (FTL) energy transmission has been theoretically explored within non-relativistic classical mechanics.
  • The potential for FTL energy transmission within quantum mechanical frameworks remained an open question.

Purpose of the Study:

  • To investigate the feasibility of FTL energy transmission within the framework of non-relativistic quantum mechanics.
  • To explore the role of quantum entanglement in novel energy transmission protocols.

Main Methods:

  • Utilized a two-spin Heisenberg model for energy transmission.
  • Employed two successive local unitary operations on initially entangled spins.
  • Analyzed the transmission within non-relativistic quantum mechanics.

Main Results:

  • Demonstrated that FTL energy transmission is achievable in non-relativistic quantum mechanics.
  • Showcased a protocol involving entangled spins and local unitary operations.
  • Confirmed that quantum entanglement can be utilized in a recyclable manner for energy transmission.

Conclusions:

  • FTL energy transmission is theoretically possible under non-relativistic quantum mechanics.
  • Quantum entanglement offers a viable mechanism for recyclable energy transmission protocols.
  • This research highlights unique quantum phenomena applicable to energy transfer, distinct from relativistic constraints.