Beam Combining for Increased Power

Описание к видео Beam Combining for Increased Power

When measuring minuscule particles, many advanced Life Science applications require more power than one laser produces. This video demonstrates how to double the power in an application by combining two lasers of the same wavelength into a single beam. To learn more about beam combining, visit our website at https://www.edmundoptics.com/lasers/l...

Hi, I’m Ehren O’Donnell Product Line Engineer at Edmund Optics, here to talk about how to efficiently combine two beams with the same wavelength utilizing polarization.
Many advanced Life Science applications require more power than a single laser can achieve for measuring minuscule particles. One way to overcome this issue is to combine two lasers with the same wavelength into a single beam. In practice, it can be difficult to maximize how much light is captured from each beam and to achieve collinearity.
However, with Edmund Optics’ components and a highly polarized laser, like the Coherent OBIS, this combining technique is easy and quick.

When combining laser beams together into a collinear path, dichroic filters, also known as dichroic beamsplitters or dichroic mirrors are typically used. Dichroic filters filter the incoming spectrum and transmit one wavelength region, while reflecting another. This works well when combining beams of different wavelengths, but does not work when the lasers have the same wavelength. Animation showing red and green beams combining, then red and red not combining.
Another common way to combine light is by using a 50/50 beamsplitter, which reflects half of the incoming light and transmits the other half regardless of wavelength or polarization state. While this technique can combine two beams, you will lose half of the power of each beam.
Instead of focusing on regions of the spectrum, we can also focus on polarization states. If two beams have the same wavelength and orthogonal polarization states, a Polarizing Cube Beamsplitter will combine the light. Similar to a dichroic filter, a Polarizing Cube Beamsplitter will transmit one type of light and reflect another. In this case, P-polarized light will transmit and S-polarized light will be reflected.
In order to combine two beams using polarization, you’ll need the following:
• Two OBIS lasers with the same wavelength
• One Polarizing Cube Beamsplitter
• Four mirrors to make two sets of folding mirrors
• One OBIS Cage Combining Kit
Each laser will need to be mounted such that their polarization states are orthogonal. Then, with the polarizing cube beam splitter in place, use the adjustments on the kinematic mounts to turn the lasers until they are collinear.
Now when you measure the power of the initial beams, you’ll see that the resultant beam is the addition of their powers with minimal loss.
To complete this system, you will need to purchase two OBIS lasers, the OBIS Cage Combining Kit, an appropriate 1” polarizing cube beamsplitter, and four 1” diameter mirrors with the highest reflection at the wavelength of your lasers.

To learn more about creating your own system for combining two beams, contact us today or visit our website at www.edmundoptics.com

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