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Universal quantum logic in hot silicon qubits
L. Petit
QCD/Veldhorst Lab
Research output
:
Thesis
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Dissertation (TU Delft)
170
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Dive into the research topics of 'Universal quantum logic in hot silicon qubits'. Together they form a unique fingerprint.
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INIS
qubits
100%
silicon
100%
spin
58%
electrons
50%
quantum dots
50%
lifetime
33%
valleys
25%
silicon oxides
25%
magnetic fields
16%
operation
16%
phonons
16%
transistors
16%
temperature dependence
16%
control
8%
l-s coupling
8%
sensitivity
8%
ghz range
8%
power
8%
cooling
8%
energy
8%
quantum information
8%
values
8%
fabrication
8%
coupling
8%
range
8%
interfaces
8%
excitation
8%
noise
8%
semiconductor materials
8%
readout systems
8%
oscillations
8%
quantum computers
8%
devices
8%
heat dissipation
8%
performance
8%
germanium silicides
8%
charges
8%
Chemistry
Silicon
100%
Reaction Temperature
100%
Quantum Dot
85%
Electron Particle
85%
Phonon
28%
Decoherence
14%
Zero-Temperature
14%
Energy
14%
Engineering Process
14%
Noise
14%
Number
14%
Spin-Orbit Coupling
14%
Device
14%
Procedure
14%
Physics
Quantum Logic
100%
Quantum Dot
100%
Silicon
100%
Phonon
11%
Single Electron Transistor
5%
Quantum Information
5%
Independent Variables
5%
Technology
5%
Oscillation
5%
Attraction
5%
Spin-Orbit Coupling
5%
Quantum Computer
5%
Material Science
Temperature
100%
Quantum Dot
85%
Transistor
28%
Semiconductor Material
14%
Heterojunction
14%
Devices
14%
Engineering
Demonstrates
30%
Couplings
20%
Experiments
20%
Cooling Power
10%
Heat Losses
10%
Qubit Gate
10%
Quantum Computer
10%
Silicon Technology
10%
Isolated System
10%
Qubit Operation
10%
Heterostructures
10%
Fields
10%
Single Qubit
10%
Single Electron
10%
Temperature Increase
10%
Tunnels
10%
Energy Engineering
10%
Semiconductor
10%