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Scaling Aspects of Silicon Spin Qubits
Jelmer Boter
QCD/Vandersypen Lab
Research output
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Thesis
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Dissertation (TU Delft)
726
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Dive into the research topics of 'Scaling Aspects of Silicon Spin Qubits'. Together they form a unique fingerprint.
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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%