Refractive Collimators
- Model
- Clear aperture(mm)
- Focal length(mm)
- Working wavelength(μm)
- Leading time
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1. These systems typically feature spherical transmission components, offering a simple and portable design that ensures high precision, making them ideal for standard optical testing and calibration tasks.
2. Due to material constraints in terms of size and transmittance, Refractive Collimators are not suited for large-aperture, full-spectrum applications. They are primarily optimized for use within the visible light spectrum.
3. In narrow-band applications, Refractive Collimators can achieve wider fields of view, enhancing their versatility in specific use cases
1. These systems typically feature spherical transmission components, offering a simple and portable design that ensures high precision, making them ideal for standard optical testing and calibration tasks.
2. Due to material constraints in terms of size and transmittance, Refractive Collimators are not suited for large-aperture, full-spectrum applications. They are primarily optimized for use within the visible light spectrum.
3. In narrow-band applications, Refractive Collimators can achieve wider fields of view, enhancing their versatility in specific use cases
1. These systems typically feature spherical transmission components, offering a simple and portable design that ensures high precision, making them ideal for standard optical testing and calibration tasks.
2. Due to material constraints in terms of size and transmittance, Refractive Collimators are not suited for large-aperture, full-spectrum applications. They are primarily optimized for use within the visible light spectrum.
3. In narrow-band applications, Refractive Collimators can achieve wider fields of view, enhancing their versatility in specific use cases
1. These systems typically feature spherical transmission components, offering a simple and portable design that ensures high precision, making them ideal for standard optical testing and calibration tasks.
2. Due to material constraints in terms of size and transmittance, Refractive Collimators are not suited for large-aperture, full-spectrum applications. They are primarily optimized for use within the visible light spectrum.
3. In narrow-band applications, Refractive Collimators can achieve wider fields of view, enhancing their versatility in specific use cases
1. These systems typically feature spherical transmission components, offering a simple and portable design that ensures high precision, making them ideal for standard optical testing and calibration tasks.
2. Due to material constraints in terms of size and transmittance, Refractive Collimators are not suited for large-aperture, full-spectrum applications. They are primarily optimized for use within the visible light spectrum.
3. In narrow-band applications, Refractive Collimators can achieve wider fields of view, enhancing their versatility in specific use cases
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