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Qubit frequency targeting in scalable superconducting quantum processors
N. Muthusubramanian
*
*
Corresponding author for this work
QCD/DiCarlo Lab
Research output
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Thesis
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Dissertation (TU Delft)
79
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Dive into the research topics of 'Qubit frequency targeting in scalable superconducting quantum processors'. Together they form a unique fingerprint.
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Keyphrases
Superconducting Quantum Processor
100%
Qubit
100%
Josephson Junction
75%
Superconducting Qubits
37%
Transmon
25%
Tunnel Barrier
25%
Room Temperature
25%
Conductance
12%
Inductance
12%
Microwave Photon
12%
Quantum Computer
12%
On chip
12%
Subtle Differences
12%
Surface Code
12%
Low Overhead
12%
Physical Yield
12%
Charge Qubit
12%
Logical Qubit
12%
Qubit States
12%
Design Specification
12%
Noise Sensitivity
12%
Junction Structure
12%
Total Capacitance
12%
Universal Quantum Computation
12%
Tunnel Junction
12%
Signal Routing
12%
Hardware Level
12%
Strongly Coupled
12%
2D Lattice
12%
Superconducting Tunnel Junctions
12%
Junction Area
12%
Experimental Demonstration
12%
Superconducting Circuits
12%
Nearest Neighbor
12%
Customized Production
12%
Fault-tolerant
12%
Through Silicon via
12%
Charge Noise
12%
Intrinsic Variability
12%
Fabrication Methods
12%
Port Connectivity
12%
Conductance Measurement
12%
Charging Energy
12%
Nanometer Scale
12%
Decoherence
12%
Current-phase Relation
12%
Coplanar Waveguide
12%
Chip Component
12%
Superconducting Artificial Atom
12%
Parallel Shunt
12%
Quantum Fault-tolerance
12%
Quantum Error Correction
12%
Chip Design
12%
Output Signal
12%
Circuit QED
12%
Anharmonicity
12%
Resonant Frequency
12%
Nonlinearity
12%
Input-output
12%
Four-port
12%
Shunt Capacitance
12%
On-chip Transmission Line
12%
Inductive Energy
12%
INIS
qubits
100%
josephson junctions
42%
fabrication
35%
increasing
14%
capacitance
14%
energy
14%
tunnel junctions
14%
junctions
14%
temperature range 0273-0400 k
14%
geometry
14%
nonlinear problems
14%
quantum computers
14%
routing
14%
barriers
14%
charges
14%
signals
14%
microwave radiation
7%
design
7%
surfaces
7%
sensitivity
7%
levels
7%
precision
7%
tolerance
7%
distance
7%
testing
7%
metrics
7%
resonance
7%
coupling
7%
suppression
7%
thickness
7%
waveguides
7%
atoms
7%
variations
7%
noise
7%
scaling
7%
layers
7%
inductance
7%
ports
7%
comparative evaluations
7%
readout systems
7%
silicon
7%
architecture
7%
density
7%
shunts
7%
yields
7%
transmission lines
7%
input-output
7%
errors
7%
reflection
7%
tools
7%
mhz range
7%
margins
7%
stacks
7%
corrections
7%
quantum electrodynamics
7%
specifications
7%
photons
7%
Engineering
Qubit
100%
Josephson Junction
46%
Fabrication
38%
Tunnel
30%
Room Temperature
15%
Networks (Circuits)
15%
Thickness
7%
Quantum Computer
7%
Qubit State
7%
Limitations
7%
Nonlinearity
7%
Realization
7%
Metrics
7%
Individual Component
7%
Quantum Circuit
7%
Capacitance
7%
Scaling
7%
Quantum Computation
7%
Complexity
7%
Nanometre
7%
Design Specification
7%
Error Correction
7%
Surface
7%
Testing
7%
Output Signal
7%
Measurement
7%
Shunt Capacitance
7%
Yield
7%
Electric Lines
7%
Quantum Error
7%
Microwave
7%
Nearest Neighbor
7%
Architecture
7%
Noise Sensitivity
7%
Resonance Frequency
7%
Connectivity
7%
Codes
7%
Charging Energy
7%
Fits and Tolerances
7%
Waveguide
7%
Density
7%
Energy Engineering
7%
Material Science
Josephson Junction
100%
Electronic Circuit
50%
Temperature
33%
Capacitance
33%
Silicon
16%
Density
16%
Surface (Surface Science)
16%
Waveguide
16%