LEC25D29 – Monochromatic monitoring spreadsheet with multiple witness chips
OptiLayer
LEC25D29 – Monochromatic monitoring spreadsheet with multiple witness chips
6:17
LEC25С3 – Characterization of a dielectric film with small absorption losses
OptiLayer
LEC25С3 – Characterization of a dielectric film with small absorption losses
6:41
LEC25С2 – Verification of characterization results – Ta2O5 film is used as an example
OptiLayer
LEC25С2 – Verification of characterization results – Ta2O5 film is used as an example
6:41
LEC25C1 – Refractive index of SiO2 on BK7 substrate
OptiLayer
LEC25C1 – Refractive index of SiO2 on BK7 substrate
6:04
Lec25D27 - Wavelength screening strategy of monochromatic monitoring
OptiLayer
Lec25D27 - Wavelength screening strategy of monochromatic monitoring
8:05
Lec25D28 - Swing optimization strategy (Strategy 4) of monochromatic monitoring
OptiLayer
Lec25D28 - Swing optimization strategy (Strategy 4) of monochromatic monitoring
13:43
LEC25D16 – Thickness error analysis
OptiLayer
LEC25D16 – Thickness error analysis
6:05
High Reflector Part II
OptiLayer
High Reflector Part II
7:32
LEC25D15 – Color options
OptiLayer
LEC25D15 – Color options
5:06
LEC25D8 – Design of coatings for oblique light incidence: immersed beamsplitter
OptiLayer
LEC25D8 – Design of coatings for oblique light incidence: immersed beamsplitter
5:04
LEC25D9 - Design of narrow band pass filters
OptiLayer
LEC25D9 - Design of narrow band pass filters
5:54
OptiLayer Monitor
OptiLayer
OptiLayer Monitor
5:24
Lec25D26-2. Dual-band notch filter for 30-degree light incidence.
OptiLayer
Lec25D26-2. Dual-band notch filter for 30-degree light incidence.
7:45
Lec25D26 - 1. Design of a narrow band notch filter for normal light incidence.
OptiLayer
Lec25D26 - 1. Design of a narrow band notch filter for normal light incidence.
10:22
OptiGeometryOptics
OptiLayer
OptiGeometryOptics
3:09
LEC25D24 – Error self-compensation effect in the case of broadband optical monitoring
OptiLayer
LEC25D24 – Error self-compensation effect in the case of broadband optical monitoring
7:12
LEC25D6 - Key role of design total optical thickness.
OptiLayer
LEC25D6 - Key role of design total optical thickness.
5:44
New Features of OptiLayerPro
OptiLayer
New Features of OptiLayerPro
5:59
LEC25D2 – Intensity and phase properties of quarter-wave mirrors.
OptiLayer
LEC25D2 – Intensity and phase properties of quarter-wave mirrors.
3:51
LEC25D1 - Main concepts of OptiLayer software. Demonstration using quarter-wave mirrors (QWM)
OptiLayer
LEC25D1 - Main concepts of OptiLayer software. Demonstration using quarter-wave mirrors (QWM)
5:29
How to design a Dual-Band Anti-Reflection Coating?
OptiLayer
How to design a Dual-Band Anti-Reflection Coating?
3:36
How to design Stacks with antireflection coatings at substrate boundaries?
OptiLayer
How to design Stacks with antireflection coatings at substrate boundaries?
8:10
How to design a Beamsplitter?
OptiLayer
How to design a Beamsplitter?
3:04
How to design a neutral Beamsplitter?
OptiLayer
How to design a neutral Beamsplitter?
3:21
How to design a Blocking filter using sensitivity-directed refinement?
OptiLayer
How to design a Blocking filter using sensitivity-directed refinement?
4:54
How to optimize Layer absorption in separate layers?
OptiLayer
How to optimize Layer absorption in separate layers?
5:13
How to design High reflector for the spectral range from 400 to 900 nm (part II)
OptiLayer
How to design High reflector for the spectral range from 400 to 900 nm (part II)
7:32
How to design High reflector for the spectral range from 400 to 900 nm (part I)
OptiLayer
How to design High reflector for the spectral range from 400 to 900 nm (part I)
2:53
How to design an Omnidirectional coating?
OptiLayer
How to design an Omnidirectional coating?
4:55
How to design an Omnidirectional coating?
OptiLayer
How to design an Omnidirectional coating?
3:07
How to design an Immersed Beam splitter?
OptiLayer
How to design an Immersed Beam splitter?
2:22
How to design a Polarizing Beamsplitter?
OptiLayer
How to design a Polarizing Beamsplitter?
4:21
How to design a broadband antireflection coating?
OptiLayer
How to design a broadband antireflection coating?
1:19
How to design a Beamsplitter (operating in the visible spectral range with normal incidence)
OptiLayer
How to design a Beamsplitter (operating in the visible spectral range with normal incidence)
1:11