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Mitigating Leakage and Noise in Superconducting Quantum Computing
F. Battistel
QCD/Terhal Group
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Dive into the research topics of 'Mitigating Leakage and Noise in Superconducting Quantum Computing'. Together they form a unique fingerprint.
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INIS
noise
100%
leakage
100%
errors
100%
quantum computing
100%
qubits
56%
corrections
34%
quantum computers
21%
operation
17%
reduction
17%
devices
13%
microwave radiation
8%
units
8%
tomography
8%
calculation methods
8%
pulses
8%
mitigation
8%
markov process
8%
performance
8%
data
8%
computers
8%
surfaces
4%
applications
4%
maps
4%
decay
4%
prices
4%
simulation
4%
range
4%
losses
4%
information
4%
density matrix
4%
readout systems
4%
relaxation
4%
machinery
4%
supercomputers
4%
tuning
4%
detection
4%
interference
4%
environment
4%
computerized simulation
4%
inclusions
4%
signals
4%
resonators
4%
Engineering
Quantum Error
88%
Error
77%
Models
55%
Quantum Computer
44%
Reduction
44%
Qubit Gate
33%
Microwave
22%
Codes
22%
Machinery
11%
Stabilizer Code
11%
Demonstrates
11%
Logical Error
11%
Characteristics
11%
Computer Simulation
11%
Maps
11%
Applicability
11%
Quantum Computation
11%
Experiments
11%
Long Timescales
11%
Noise Source
11%
Quantum Correction
11%
Tasks
11%
Phase Gate
11%
Elements
11%
Earth and Planetary Sciences
Quantum Computation
100%
Leakage
100%
Error
100%
Net Zero
20%
State
20%
Tomography
13%
Microwave
13%
Mitigation
13%
Need
13%
Show
6%
Readout
6%
Real Time
6%
Investigation
6%
Error Correcting Codes
6%
Echo
6%
Statics
6%
Supercomputer
6%
Selection
6%
Thesis
6%
Map
6%
Preparation
6%
Footprint
6%
Experiment
6%
Detection
6%
Timescale
6%
Material Science
Devices
100%
Stabilizer (Agent)
66%
Tomography
66%
Resonator
33%
Electronics
33%
Density
33%
Dephasing
33%
Hidden Markov Model
33%
Surface
33%
Physics
Quantum Dot
100%
Quantum Computing
100%
Quantum Error Correction
53%
Quantum Computer
30%
Calculation
15%
Microwave
15%
Quantum Tomography
7%
Utilization
7%
Alternatives
7%
Inclusions
7%
Impact
7%
Interference
7%
Environment
7%
Statics
7%
Detection
7%
Biochemistry, Genetics and Molecular Biology
Hidden Markov Model
20%