Scaling Aspects of Silicon Spin Qubits

INIS

• scaling 100%
• qubits 100%
• silicon 100%
• spin 100%
• control 27%
• correlations 24%
• devices 20%
• errors 20%
• operation 17%
• noise 17%
• implementation 17%
• quantum computers 17%
• design 13%
• fabrication 10%
• corrections 10%
• relaxation time 6%
• charges 6%
• magnetic fields 3%
• origin 3%
• gain 3%
• heating load 3%
• power 3%
• cooling 3%
• units 3%
• applications 3%
• testing 3%
• high temperature 3%
• communities 3%
• coupling 3%
• foundries 3%
• valleys 3%
• quantum entanglement 3%
• variations 3%
• proposals 3%
• temperature dependence 3%
• density 3%
• quantum mechanics 3%
• data 3%
• quantum computing 3%
• compatibility 3%
• environment 3%
• engineering 3%
• lifetime 3%
• cern 3%
• cern lhc 3%

Engineering

• Scaling 100%
• Experiments 28%
• Electronics 24%
• Spatial Correlation 20%
• Classical Control 16%
• Physical Implementation 12%
• Quantum Computer 12%
• Local Control 12%
• Development 12%
• Quantum Error 12%
• High Temperature Operations 8%
• Demonstrates 8%
• Interconnects 8%
• Qubit Operation 8%
• Quantum Computation 8%
• Design 8%
• Cleanroom 4%
• Cooling Power 4%
• Couplings 4%
• Models 4%
• Error 4%
• Limitations 4%
• Optimal Design 4%
• Inhomogeneity 4%
• Research Group 4%
• Active Research 4%
• Single Chip 4%
• Determines 4%
• Density 4%
• Sparse Array 4%
• Engineering 4%
• Elevated Temperature 4%
• Hold Circuit 4%
• Field Operation 4%
• Heating Load 4%
• Operation Temperature 4%
• Cell Design 4%
• Compatibility 4%
• Low-Temperature 4%

Physics

• Quantum Dot 100%
• Silicon 100%
• Correlation 24%
• Arrays 13%
• Quantum Computing 10%
• Quantum Error Correction 10%
• Quantum Computer 10%
• Spin Relaxation 6%
• Relaxation Time 6%
• Theoretical Model 3%
• Heat 3%
• Quantum Mechanics 3%
• Utilization 3%
• Independent Variables 3%
• Decoherence 3%
• Hadron 3%
• Environment 3%