3D microfabrication technology
The high-precision 3D printing of lenses is performed on our Nanoscribe Quantum X Align tool. This additive manufacturing process offers many advantages over traditional, subtractive, methods of creating lensed or tapered fibers, such as:
- High positioning accuracy relative to the fiber core.
- Full control over lens design parameters, such as asphericity for aberration correction.
- The ability to print directly onto existing surfaces, enabling more options for light coupling.
Lens specifications
The table below shows the correlation between wavelength, mode field diameter (MFD), working distance (WD), lens height (LH), and other lens dimensions (A, B, and B+D).
| Lens type | Wavelength (nm) | Mode field diameter (µm) | Working distance (µm) | Lens height (µm) | A (µm) | B (µm) | B+D (µm) |
| Collimating periscope 211 | 1550 | 26 | 100 | 191 | 148 | 63 | 118 |
| Collimating periscope 220 | 1550 | 30 | 50 | 200 | 158 | 62 | 117 |
| Collimating periscope 230 | 1550 | 20 | 250 | 207 | 165 | 65 | 120 |
| Focusing periscope 60 | 1550 | 10 | 35 | 56 | 38.5 | 21.5 | 50.6 |
| Focusing periscope 97 | 1550 | 3.6 | 25 | 155 | 120 | 60 | 100 |
| Focusing periscope 190 | 1550 | 15 | 150 | 168 | 125 | 65 | 120 |
If you still can’t find the configuration you’re looking for or have special requests, please fill out our custom lensed fiber array form. We will get back you you with a price and lead time.
Fiber array specifications
- SMF28 Ultra single mode fiber
- Length: 1 meter
- Connectors: FC/APC
Benchmark scores
- Lens X-Y alignment accuracy: 100 nm
- Lens surface roughness: 5 nm
- Lens shape accuracy: 200 nm
- Feature size control in X-Y direction: 100 nm
- Achievable coupling loss: ≤ 1 dB, depending on the application
