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Quasi-Majorana states in Majorana devices
A. Vuik
QN/Akhmerov Group
Research output
:
Thesis
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Dissertation (TU Delft)
36
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Dive into the research topics of 'Quasi-Majorana states in Majorana devices'. Together they form a unique fingerprint.
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Physics
Electrostatics
100%
Quantum Computer
75%
Constriction
50%
Quantum Dot
50%
Quantum Computing
50%
Shapes
50%
Behavior
50%
Alternatives
25%
Phase Transition
25%
Condensed Matter Physics
25%
Independent Variables
25%
Potential Barrier
25%
Oscillation
25%
Boundaries
25%
Density of States
25%
Environment
25%
Detection
25%
Engineering
Quantum Computer
75%
Similarities
75%
Couplings
50%
Characteristics
50%
Band Structure
50%
Tunnels
50%
Energy Engineering
50%
Hardware Development
25%
Experimental Observation
25%
System Parameter
25%
Phase Boundary
25%
Gate Voltage
25%
One Dimensional
25%
Density
25%
Superconductor
25%
Gate Electrode
25%
Building Block
25%
Semiconductor
25%
Chemistry
Device
100%
Energy
50%
Electronic Band Structure
50%
Condensed-Matter Physics
25%
Potential Barrier
25%
Conductance
25%
Density of State
25%
Noise
25%
Voltage
25%
Phase Transition
25%
Slope
25%
Phase Interface
25%
Electron Particle
25%
Transport Property
25%
Superconductor
25%
INIS
majorana spinors
100%
devices
100%
topology
36%
electrostatics
12%
quantum computers
9%
control
6%
energy
6%
qubits
6%
investigations
6%
barriers
6%
confinement
6%
quantum computing
6%
computers
6%
couplings
3%
electrons
3%
magnetic fields
3%
superconductors
3%
mimic
3%
perturbations
3%
voltage
3%
hybrids
3%
coupling
3%
wires
3%
simulation
3%
geometry
3%
tunneling
3%
noise
3%
semiconductor materials
3%
density of states
3%
one-dimensional calculations
3%
transport
3%
shape
3%
oscillations
3%
nanowires
3%
errors
3%
disturbances
3%
physics
3%
phase transformations
3%
detection
3%
potential barriers
3%
environment
3%
solutions
3%
electrodes
3%
Material Science
Devices
100%
Semiconductor Material
25%
Superconducting Material
25%
Density
25%
Nanowire
25%
Electrode
25%