MIT Physicists Unlock Breakthrough in Unconventional Superconductivity with Graphene

MIT physicists have achieved a breakthrough in Superconductivity using Graphene, paving the way for advancements in Quantum tunnelling and Electronics.

• Researchers from the Massachusetts Institute of Technology developed a method to measure the superconducting gap in Graphene, enhancing our understanding of unconventional superconductor behavior.
• The team demonstrated that Quantum tunnelling phenomena in Graphene could lead to improved energy efficiency and performance in future Electronics applications.
• Co-authors Shuwen Sun and Jeong Min Park utilized a novel experimental setup to explore the superconductivity of magic-angle Graphene, contributing significantly to the field of Physics.