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Cryogenic electronics for the read-out of quantum processors
Harald Homulle
Research output
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Thesis
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Dissertation (TU Delft)
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INIS
readout systems
100%
cryogenics
100%
qubits
87%
interfaces
62%
devices
62%
operation
37%
transistors
37%
power
37%
temperature range 0273-0400 k
37%
noise
37%
temperature range
25%
wires
25%
analog-to-digital converters
25%
implementation
25%
amplifiers
25%
environment
25%
signals
25%
constraints
25%
control
12%
injection
12%
refrigerators
12%
cmos circuits
12%
voltage regulators
12%
budgets
12%
heat
12%
voltage
12%
mobility
12%
quantum systems
12%
simulation
12%
dilution
12%
evaluation
12%
calculation methods
12%
optimization
12%
speed
12%
comparative evaluations
12%
spin
12%
security
12%
digital-to-analog converters
12%
quantum bits
12%
performance
12%
stability
12%
industry
12%
data
12%
quantum computing
12%
mixers
12%
size
12%
algorithms
12%
computers
12%
Physics
Cryogenics
100%
Quantum Dot
100%
Technology
50%
Arrays
37%
Environment
25%
Amplifier
25%
Calculation
12%
Heat
12%
Quantum Technology
12%
Zero-Temperature
12%
Quantum Computing
12%
Shapes
12%
Deviation
12%
Behavior
12%
Optimization
12%
Speed
12%
Engineering
Networks (Circuits)
75%
Cryogenic Temperature
50%
Field Programmable Gate Arrays
37%
Low-Temperature
37%
Amplifier
25%
Temperature Range
25%
Complex Model
12%
Optimization
12%
Normal Temperature
12%
Electric Power Utilization
12%
Models
12%
Electronic Interface
12%
Digital Controller
12%
Mixers (Machinery)
12%
Subthreshold Slope
12%
Interconnects
12%
Array Voltage
12%
Electronic Noise
12%
Main Problem
12%
Quantum System
12%
Power Budget
12%
Material Science
Electronics
100%
Temperature
100%
Electronic Circuit
40%
Devices
33%
Transistor
20%
Interface Electronics
6%
Characterization
6%
Chemical Engineering
Cryogenics
100%
Temperature
100%
Scalability
6%