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Cryogenic Amplifiers for Condensed Matter Physics
Oskari Ponkala
BA6210 Quantum sensors
Research output
:
Thesis
›
Master's thesis
Overview
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Dive into the research topics of 'Cryogenic Amplifiers for Condensed Matter Physics'. Together they form a unique fingerprint.
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Keyphrases
Amplifier Design
25%
Analytical Model
25%
Block Diagram
25%
Common Source
25%
Condensed Matter Physics
100%
Cryogenic Amplifier
100%
Cryogenic Refrigerator
50%
Current Noise
25%
Electrical Noise
25%
Experimental Demonstration
25%
Frequency-domain Measurement
25%
Gallium Arsenide
50%
High Bandwidth
25%
High Impedance
75%
High-resolution
50%
Impedance Device
75%
InP HEMT
100%
Lag Compensator
25%
Lead-lag Relationship
25%
Low Input Impedance
50%
Low Temperature
25%
Low-frequency Noise
25%
Low-pass Filtering
25%
Measurement Bandwidth
25%
Output Buffer
25%
Phase-lag
25%
Quantum Devices
25%
Room Temperature
25%
Schematic Diagrams
25%
Three-stage Design
25%
Time-domain Measurements
25%
Transimpedance
25%
Transimpedance Amplifier
75%
Transistor
25%
Voltage Amplifier
75%
INIS
amplifiers
100%
buffers
8%
comparative evaluations
16%
cost
8%
cryogenics
100%
design
25%
devices
33%
diagrams
8%
electron mobility
8%
gain
8%
gallium arsenides
16%
impedance
41%
low temperature
8%
mhz range
8%
noise
25%
output
16%
performance
8%
physics
100%
readout systems
8%
refrigerators
16%
resolution
16%
signals
8%
stability
8%
temperature range 0273-0400 k
8%
transistors
16%
voltage
25%
Physics
Condensed Matter Physics
100%
Gallium Arsenide
100%
High Electron Mobility Transistors
50%
High Resolution
100%
Quantum Device
50%
Room Temperature
50%
Engineering
Amplifier
100%
Analytical Model
8%
Block Diagrams
8%
Design Stage
8%
Filtration
8%
Frequency Domain
8%
Frequency Noise
8%
Gallium Arsenide
16%
High Resolution
16%
Input Impedance
8%
Low-Temperature
8%
Output Impedance
8%
Phase Lag
8%
Room Temperature
8%
Schematic Diagram
8%
Source Voltage
8%
Time Domain
8%