Quantum computers, systems that process information leveraging quantum mechanical effects, could reliably tackle various computational problems that cannot be solved by classical computers. These ...
Researchers at Kyushu University have shown that careful engineering of materials interfaces can unlock new applications for ...
Spin waves are collective oscillations of electron spins in magnetic materials. They represent a quantum mechanical phenomenon in which electrons’ angular momentum or spin fluctuates in a coordinated ...
A team that has developed patent-pending one-dimensional boron nitride nanotubes (BNNTs) containing spin qubits, or spin defects. The BNNTs are more sensitive in detecting off-axis magnetic fields at ...
A research group at the University of Electro-Communications has successfully measured the "stretch and shrinkage" of crystals under an ultra-high magnetic field of 600 Tesla (Figure 1) utilizing an ...
Quantum materials can behave in surprising ways when many tiny spins act together, producing effects that don’t exist in single particles.
A new framework for understanding the non-monotonic temperature dependence and sign reversal of the chirality-related ...
WEST LAFAYETTE, Ind. — Purdue University researchers have developed patent-pending one-dimensional boron nitride nanotubes (BNNTs) containing spin qubits, or spin defects. The BNNTs are more sensitive ...
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