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Industrialization of the mirror plate coatings for the ATHENA mission
Sonny Massahi
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Corresponding author for this work
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Book/Report
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Ph.D. thesis
368
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Dive into the research topics of 'Industrialization of the mirror plate coatings for the ATHENA mission'. Together they form a unique fingerprint.
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Weight
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Engineering
High Energy
100%
Coating
100%
Boron
100%
Iridium
80%
Thin Films
19%
Facilities
11%
Stability
11%
Process Chemical
7%
Reflectance
7%
Effective Area
7%
Film Quality
7%
Optic Technology
7%
Throughput
3%
Mass Production
3%
Frame Time
3%
Technical Requirement
3%
Compatibility
3%
Layer Thickness
3%
Main Purpose
3%
Layer Coating
3%
Direct Current
3%
Production Technique
3%
Target Material
3%
Technology Readiness Level
3%
Ray Photoelectron Spectroscopy
3%
Good Time
3%
Spectral Resolution
3%
Deposition Technology
3%
Environment
3%
Development
3%
Design
3%
Demonstrates
3%
Surfaces
3%
Thickness
3%
Energy Engineering
3%
Properties
3%
Experiments
3%
Processing
3%
Complexity
3%
Requirements
3%
Density
3%
Roughness
3%
Low Density
3%
Energetics
3%
Significant Reduction
3%
Chemistry
Coating Agent
100%
Energy
100%
Plate Like Crystal
100%
Boron Atom
46%
Liquid Film
38%
Time
23%
Engineering Process
19%
X-Ray
19%
Phase Composition
11%
Silicon
11%
Thin Film Deposition
11%
Procedure
7%
Density
7%
Thickness
7%
X-Ray Photoelectron Spectroscopy
7%
Atomic Bonding
7%
Reflectivity
3%
Magnetron Sputtering
3%
Coating Process
3%
Environment
3%
Degradation
3%
Potential
3%
Concentration
3%
Structure
3%
Surface
3%
Roughness
3%
Physics
High Energy Astrophysics
100%
Mirrors
100%
Coating
100%
Iridium
26%
Thin Films
23%
Technology
19%
X Ray
15%
Optics
11%
Stability
11%
Reflectance
7%
Chemical Process
7%
Area
7%
Quality
7%
Energetics
7%
Silicon
3%
Porosity
3%
Degradation
3%
Atmospherics
3%
Stacking
3%
X Ray Spectroscopy
3%
Magnetron Sputtering
3%
Black Holes
3%
Active Galactic Nuclei
3%
X Ray Optics
3%
Mirror Optics
3%
Low Density Materials
3%
Environment
3%
Work
3%
Deposition
3%
Targets
3%
Universities
3%
Roughness
3%
Universe
3%
Significance
3%
Galactic Evolution
3%
Material Science
Coating
100%
Carbide
46%
Thin Films
19%
Material
11%
Multilayers
11%
Film
7%
Density
7%
Oxide
3%
Reflectivity
3%
Magnetron Sputtering
3%
Coating Process
3%
Surface
3%