50mmlens

The Basler Premium Lens from the Basler Lens family fits perfectly with Basler cameras with a resolution of up to 12 megapixels and a sensor size of up to 1.1".

One common example of diffraction is the way sound waves spread out around a corner or through a door. Another example is the way light waves diffract through a narrow slit, creating a pattern of light and dark bands known as diffraction patterns.

Diffraction and refraction are both phenomena that occur when waves encounter obstacles or pass through openings. The main difference is that diffraction refers to the bending and spreading of waves, while refraction refers to the change in direction and speed of waves as they pass through a different medium.

5mm lensprice

Diffraction has many practical applications, including in medicine, astronomy, and telecommunications. For example, X-ray diffraction is used to determine the structure of molecules in medicine and materials science, while radio waves are diffracted to improve the range and quality of telecommunications signals.

5mm lensTelescope

Diffraction occurs when a wave encounters an obstacle or passes through an opening that is similar in size to its wavelength. The wave will bend and spread out, creating a pattern of interference.

Diffraction is the bending or spreading of waves around obstacles or through openings. It is a characteristic of all types of waves, including sound, light, and water waves.

The Basler Premium product line offers excellent image quality with a high resolution capacity, low distortion and minimal vignetting. This makes Basler Premium Lenses optimal for cameras with very high resolutions for the analysis of the smallest structures.

Basler Premium Lens with C-mount, a maximum image circle of 1.1", a fixed focal length of 8.5 mm, F-stop settings from F2.4 - F16 and a high resolution of 12 megapixels.