ABSTRACT
Abstract ................................................................................................. 183 8.1 Introduction .................................................................................. 183 8.2 Nanodesk-I Stakeholder’s Day: Nanomaterials in
Plastic Industry ............................................................................ 183 8.3 Qubit States Coherent Manipulation in a
Molecular Ion Magnet ................................................................. 185 8.4 Molecular Nanoscience: From Functional
Molecules to Devices ................................................................... 186 8.5 Ultrastrong Coupling Achieved Between Light and Matter ........ 186
8.6 Nuclear Magnetic Resonance Confirms Spin-Orbit Coupling Drives Magnetic Quantum Phase Transition ............... 187
8.7 Carbon Nanotube Transistors Open Up to Innovative Scales ...... 187 Acknowledgment .................................................................................. 187 Keywords .............................................................................................. 188 References ............................................................................................. 188
ABSTRACT
An ultrastrong coupling between photons and qubits, 10 times larger than ever seen before, opens the door to a domain of physics and applications deemed unattainable until recently. Nuclear magnetic resonance experiments confirmed the presence of higher order interactions and lattice distortions, in the quantum ferromagnetic phase transition, in the double perovskite Ba2NaOsO6.ç
8.1 INTRODUCTION
In earlier publications, fractal hybrid-orbital analysis,1,2 resonance,3 molecular diversity,4 periodic table of the elements,5,6 law, property, information entropy, molecular classification, simulators,7-12 labor risk prevention, and preventive health care at work with nanomaterials (NMs)13-15 were reviewed. In the present report, the aim is to understand NMs in plastic industry, coherent manipulation of three-quantum-binarydigit (bit) (qubit) states in a molecular single-ion magnet for quantum simulation, molecular nanoscience, ultrastrong coupling (USC) of a single artificial atom to an electromagnetic continuum in the nonperturbative regime, magnetism and local symmetry breaking in a Mott insulator with strong spin-orbit interactions in quantum materials, and C nanotube (C-NT) transistors opening up to innovative scales.
