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Dynamics and correlations in low-dimensional electrical systems
Marco Will
Department of Applied Physics
Quantum Circuits and Correlations
Research output
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Thesis
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Doctoral Thesis
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Dive into the research topics of 'Dynamics and correlations in low-dimensional electrical systems'. Together they form a unique fingerprint.
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Engineering
Graphene
100%
Electrical System
100%
Resonator
41%
Low-Temperature
16%
Nanotubes
16%
Carbon Nanotubes
16%
Noise Level
16%
Superconductor
16%
Q Factor
16%
Two Dimensional
8%
Frequency Domain
8%
External Source
8%
Measurement Setup
8%
Waveguide
8%
Temperature Dependence
8%
Electrical Loss
8%
Heat Transport
8%
Sidebands
8%
Resistance Heating
8%
Charge Carrier
8%
Carrier Concentration
8%
Probe Signal
8%
Linear Temperature
8%
Suspended Part
8%
High Quality Factor
8%
Adsorbate
8%
Signal Amplification
8%
Physics
Graphene
100%
Resonator
41%
Q Factor
25%
Carbon Nanotube
16%
Nanotube
16%
Low Noise
16%
Heat Transfer
8%
Critical Current
8%
Temperature Dependence
8%
Waveguide
8%
Self Oscillation
8%
Noise Temperature
8%
Phase Diagrams
8%
Material Science
Graphene
100%
Resonator
41%
Superconducting Material
16%
Nanotubes
16%
Carbon Nanotubes
16%
Carrier Concentration
8%
Adsorbate
8%
Charge Carrier
8%
Waveguide
8%
Surface (Surface Science)
8%