Authors: George Rajna
The recent study by the Russian physicists has shown the waveguides to have a greater effect than anticipated. In fact, it turns out that a poorly chosen waveguide geometry can result in complete signal loss.  In the emerging field of magnon spintronics, researchers seek to transport and process information by means of so-called magnon spin currents.  Working together, Miller, Boehme, Vardeny and their colleagues have shown that an organic-based magnet can carry waves of quantum mechanical magnetization, called magnons, and convert those waves to electrical signals.  While standard quantum hardware entangles particles in two states, the team has found a way to generate and entangle pairs of particles that each has 15 states. 
Comments: 40 Pages.
[v1] 2020-01-02 10:04:34
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