Georgia Institute of Technology Creating Nanoscale Quantum Devices
Image shows patterned etching of graphene oxide flakes to create a logo. The etching achieved a depth of 0.9 nanometers. (Image Credit: GA Tech) E-Beam
September 18, 2020
Image shows patterned etching of graphene oxide flakes to create a logo. The etching achieved a depth of 0.9 nanometers. (Image Credit: GA Tech) E-Beam
Secure Classical Cryptography Using Quantum Superposition Unconditionally secured classical cryptography using quantum superposition and unitary transformation Abstract + Over decades quantum cryptography has been intensively
Quantum Teleportation for Secure Quantum Communications Between Many Senders ~ Receivers Quantum secrets can be teleported and shared between multiple senders and receivers Excerpts and
Schwew! “Quantum Computing is Here to Stay” Quantum Computing is Here to Stay Excerpts and salient points ~ + Quantum computing is here to stay. Although
Engineers Boost Potential for Creating Successor to Shrinking Transistors Computers and similar electronic devices have gotten faster and smaller over the decades as computer-chip
Does South Korea Need to Pivot to Adapt to the Fourth Industrial Revolution? Japan, Australia, South Korea, Thailand, and Bangladesh have made it to The
Korea, The Good One, Investing Just Under $450M, In Part for Quantum Computing and Quantum Sensing. Moon Mi-ok, South Korea’s Vice Minister of Science and
South Korea Investing Millions in Quantum Computing. Over the next 5 years, South Korea is set to invest nearly $40M toward quantum computing and related technologies.
Scientists in South Korea have shown the ability to detect magnetism in the nucleus of an atom.
