Bioshape Laser (BSL)
Fully optically integrated laser Top Hat illumination system for life sciences, environmental and scientific applications.
- Industry standard dimensions
- Easy to integrate into existing analytical instruments
- Temperature stabilized optical train
- Low noise electronics (<0.2% RMS)
- Integrated communication
- Fast analog and digital modulation
- DNA sequencing
- Flow cytometry
- Environmental monitoring
- Medical instrumentation
- Microscopy
- Laser induced fluorescence and scatter
Beam Shaping for User’s Application
Osela’s BioShape laser is an OEM ready laser source that allows for easy system integration and for which beam shaping is customized specifically
to the user’s application. Our flexible optical platform efficiently creates a Top Hat beam profile with high uniformity (U) and no high frequency
noise as required in many analytical instruments. The Top Hat beam can be created directly at customer’s target plane (ITH option) or at the focal
plane of an existing optical system (DTH option).
Key Features of Osela’s Top Hat Beam Shaping Technology
- Highly uniform profiles (CV down to 1% )
- All glass AR coated optics providing high transmission efficiency
- Smooth and slow variations with no high frequency noise
- Steep edges profile with maximized contained power
- Flexible Top Hat to Gaussian aspect ratio
ITH – Fully Integrated Bioshape Laser
Osela’s ITH option is a fully integrated, OEM ready laser that creates a Top Hat profile of desired dimension at the focal plane of its integrated imaging lens system. The Top Hat dimension is directly proportional to the focal length of the imaging lens (F) and the Top Hat constant (K), with no additional optical system required.
DTH – Flexible Bioshape Laser
Osela’s DTH option is designed to create a Top Hat profile at the focal plane of a customer’s existing optical system. The Top Hat dimension and Gaussian axis are flexible and scale with the effective focal length of the system. This option has the advantage of being independent of distance between the laser and the imaging system.
