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Integrated Quantum Photonics: from modular to monolithic integration
Iman Esmaeil Zadeh
QN/Quantum Nanoscience
Research output
:
Thesis
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Dissertation (TU Delft)
560
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Dive into the research topics of 'Integrated Quantum Photonics: from modular to monolithic integration'. Together they form a unique fingerprint.
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Weight
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Physics
Nanowires
100%
Photonics
100%
Silicon Nitride
83%
Quantum Dot
83%
Quantum Optics
66%
Waveguide
66%
Optical Waveguides
50%
Behavior
50%
Optical Fiber
33%
Technology
33%
Quality
33%
Cryogenic Temperature
33%
Growth
33%
Substrates
16%
Utilization
16%
Coherence
16%
Optoelectronics
16%
Optics
16%
Fabrication
16%
Quantum Logic
16%
Transferring
16%
Temperature
16%
Shapes
16%
Vapor Deposition
16%
Detection
16%
Resonator
16%
Performance
16%
Flexibility
16%
Optical Device
16%
Keyphrases
Quantum Optics
100%
Monolithic Integration
100%
Integrated Quantum Photonics
100%
Optical Circuits
62%
Nanowire Quantum Dots
50%
Single-photon Source
37%
Optical Waveguides
37%
Single-photon Detector
37%
Silicon Waveguide
37%
Emission Energy
37%
Scalable Platform
25%
Emission Properties
25%
Electrically Pumped
25%
Excitation Field
25%
Thermo-optic
12%
Scalable Implementation
12%
Plasma Enhanced
12%
Single-photon Emitters
12%
Quantum Circuit
12%
III-V Nanowires
12%
Temperature Behavior
12%
Optical Ring
12%
Waveguide Resonators
12%
Take-the-first
12%
Quantum Logic
12%
Single Photon Generation
12%
Ring Resonator
12%
Single Photon Emission
12%
On-chip Quantum Optics
12%
Optoelectronic Performance
12%
Efficient Integration
12%
New Substrate
12%
Integrated Sources
12%
Functional Circuits
12%
INIS
photons
100%
waveguides
58%
nanowires
50%
quantum dots
41%
silicon nitrides
41%
emission
33%
quantum optics
33%
energy
25%
excitation
25%
losses
25%
plasma
16%
implementation
16%
growth
16%
cryogenics
16%
optical fibers
16%
control
8%
polarization
8%
flexibility
8%
sensitivity
8%
budgets
8%
substrates
8%
optics
8%
applications
8%
rings
8%
fabrication
8%
coupling
8%
interfaces
8%
photon emission
8%
removal
8%
purity
8%
defects
8%
devices
8%
chemical vapor deposition
8%
tuning
8%
potentials
8%
performance
8%
detection
8%
etching
8%
strains
8%
resonators
8%
Material Science
Electronic Circuit
100%
Waveguide
77%
Nanowire
66%
Silicon Nitride
55%
Quantum Dot
55%
Detector
44%
Temperature
33%
Fiber Optics
22%
Resonator
11%
Plasma-Enhanced Chemical Vapor Deposition
11%
Devices
11%
Optical Device
11%