Infrared (NIR) Objective Lens, 0.7mm Glass Thickness Compensation
PAL-50-NIR-L-LC07
This is a high NA infinity corrected objective lens for laser processing (fundamental of YAG laser). Its glass-thickness- compensation optical design makes it possible to realize an ideal beam spot size and quality even if it was processed thorough a cover glass.
◦Two kinds objective lenses are available. They are designed to correct aberration depending on the thickness of cover glass. (t= 0.7 mm and 1.1 mm)
◦With its long working infinity correction function; this objective lens can be used for a laser system and coaxial observation.
◦It is also used for the observation of Near Infrared light.
◦High resolution type (NA=0.65) is also available.
◦This objective lens can be used with a pulse laser of visible light (532nm).
◦Laser Damage Threshold(reference): 0.1J/cm2 (532nm), 0.2 J/cm2 (1064nm) (Laser pulse width: 10ns, repetition frequency: 20Hz)
◦It is also used for the observation of Near Infrared light.
◦High resolution type (NA=0.65) is also available.
◦This objective lens can be used with a pulse laser of visible light (532nm).
◦Laser Damage Threshold(reference): 0.1J/cm2 (532nm), 0.2 J/cm2 (1064nm) (Laser pulse width: 10ns, repetition frequency: 20Hz)
Name | Infrared (NIR) Objective Lens, 0.7mm Glass Thickness Compensation |
---|---|
Weight | 0.3400kgs |
Standard Coatings Available | No |
Guide |
|
Remark | - |
Attention |
|
Image Label | Infrared (NIR) Objective Lens |
Focal length | 4mm |
Magnification | 50× |
Numerical Aperture | 0.45 |
Working Distance WD | 15.01mm |
Item name | LCD MPlanApo NIR 50x (t0.7) |
Resolution (λ=550nm) | 0.61μm |
Focal depth (λ=550nm) | ±1.4μm |
Pupil diameter | φ3.6mm |
Real field of View (Imaging device 1/2-inch) | 0.10×0.13mm |
Weight | 0.34kg |
Cover glass material | Synthetic Quartz |
In stock
SKU
PAL-50-NIR-L-LC07
$4,079.00
This is a high NA infinity corrected objective lens for laser processing (fundamental of YAG laser). Its glass-thickness- compensation optical design makes it possible to realize an ideal beam spot size and quality even if it was processed thorough a cover glass.