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Adaptive multilayer optics for extreme ultraviolet wavelengths
Muharrem Bayraktar
Laser Physics & Nonlinear Optics
Faculty of Science and Technology
XUV Optics
Research output
:
Thesis
›
PhD Thesis - Research UT, graduation UT
635
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Earth and Planetary Sciences
Wavelength
100%
Quality
75%
Thesis
75%
Light Source
50%
Electric Potential
50%
Mirror
50%
Distortion
50%
Purification
50%
Adaptive Optics
50%
Order
50%
Magnitude
50%
Film Thickness
50%
Class
50%
High Spatial Resolution
25%
Optical Instrument
25%
Region
25%
Electronic Equipment
25%
Coefficient
25%
Thin Films
25%
Adaptation
25%
Deviation
25%
Value
25%
Photolithography
25%
Glass
25%
Fabrication
25%
Show
25%
Reflectance
25%
Efficiency
25%
Record
25%
Engineering
Piezoelectric
100%
Wavelength
100%
Substrates
60%
Ultraviolet Light
60%
Light Source
40%
Design
40%
High Quality
40%
Thickness
40%
Thin Films
20%
Fields
20%
Piezoelectric Coefficient
20%
Spatial Resolution
20%
Nanosheet
20%
Reflectance
20%
Applied Voltage
20%
Nanometre
20%
Electric Potential
20%
Energy Engineering
20%
Optical Lithography
20%
Efficiency
20%
High Value
20%
Electronics
20%
Deviation
20%
Columnar Structure
20%
Fresnel Zone
20%
Development
20%
Surfaces
20%
Fabrication
20%
Glass Substrate
20%
Physics
Piezoelectricity
100%
Optics
100%
Substrates
66%
Mirrors
50%
Quality
50%
Adaptive Optics
33%
Magnitude
33%
Light Sources
33%
Film Thickness
33%
Electric Potential
33%
Responses
33%
Light
33%
Value
16%
Fabrication
16%
Electronic Equipment
16%
Adaptation
16%
Performance
16%
Region
16%
Glass
16%
Reflectance
16%
Thin Films
16%
Coefficients
16%
Photolithography
16%
Deviation
16%
Material Science
Piezoelectricity
100%
Crystalline Material
50%
Purification
33%
Film Thickness
33%
Glass
16%
Optical Device
16%
Surface
16%
Amorphous Material
16%
Electronic Component
16%
Thin Films
16%