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Scalability and modularity for transmon-based quantum processors
Christian Dickel
QCD/DiCarlo Lab
Research output
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Thesis
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Dissertation (TU Delft)
1466
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Engineering
Qubit
100%
Experiments
85%
Fabrication
42%
Entanglement
42%
Measurement
28%
Quantum Computer
28%
Error Correction
28%
Single Qubit
28%
Quantum Error
28%
Module
28%
Qubit State
14%
Requirement
14%
Small Scale
14%
Research Group
14%
Electronics
14%
Scaling
14%
Performance
14%
Converges
14%
Buildings
14%
Chain
14%
Vector
14%
Loss
14%
Control Qubit
14%
Architecture
14%
Connectivity
14%
Quantum Algorithm
14%
Accuracy
14%
Nanosecond
14%
INIS
qubits
100%
control
36%
fabrication
27%
quantum entanglement
27%
pulses
18%
quantum computers
18%
errors
18%
corrections
18%
photons
18%
amplification
9%
levels
9%
imperfections
9%
matrices
9%
switches
9%
calculation methods
9%
scaling
9%
losses
9%
leakage
9%
architecture
9%
routing
9%
accuracy
9%
vectors
9%
tuning
9%
physics
9%
performance
9%
chains
9%
industry
9%
solids
9%
algorithms
9%
control equipment
9%
Physics
Quantum Dot
100%
Fabrication
27%
Pulse
18%
Quantum Error Correction
18%
Quantum Computer
18%
Broadcasting
9%
Calculation
9%
Solid State
9%
Algorithm
9%
Physics
9%
Defects
9%
Performance
9%
Biochemistry, Genetics and Molecular Biology
Experiment
100%
Photon
33%
Pulse Rate
33%
Scale up
16%
Solid State
16%
Accuracy
16%
Material Science
Switch
100%
Solid
100%
Keyphrases
Switch Matrix
25%
Gate Leakage
25%
Chip Module
25%