- Selection of Optics
- Laser Safety
- Handling of Optics
- Explanation of Basic Terms
- Mirrors Selection Guide
- Beamsplitters Selection & Applications Guide
- Polarizers Selection Guide
- Waveplate Application Note
- Application Note of Polarizers
- Lenses Selection Guide
- ME-Optics Selection Guide
- Filters Selection Guide
- Prisms Selection Guide
- Substrates & Windows Selection Guide
- Technical Referance
Guide
Lenses Selection Guide
These Lenses listed here are a single lens polished to a spherical shape different
to multi-element lens for cameras or telescopes.
The performance is reduced to minimum with a wide range of applications at low cost.
| Application | Type of Lens | Features | Relevance information |
| Focus ・ Image formation | |||
| Focused laser beam | Plano Convex Lenses | Low cost. Small spot size. | High performance product → Achromatic Lenses |
| Collimated light | Spherical aberration is small. | High performance product → Achromatic Lenses |
|
| Illumination | Biconvex Lenses Plano Convex Lenses |
Compact. High numerical aperture. | High numerical aperture → Aspheric Lenses |
| Image formation (Microscope) |
Biconvex Lenses Plano Convex Lenses |
Low cost. Observation of a narrow field of view. |
High performance product → Achromatic Lenses, Camera Lenses |
| Beam Shaping Diffusers | |||
| Beam expansion | Plano Convex Lenses +Plano Concave Lenses |
Low cost. Low magnification. | High performance products → Beam Expanders |
| Light sheet | Cylindrical Lenses | Low cost. Diverging beam uniaxial. | |
| Irregular beam | Plano Convex Lenses +Cylindrical Lenses |
Varying the Beam Diameter and, Aspect ratio, Beam Divergence Aspect ratio. |
|
