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| projects:optics:log [2026/02/01 11:15] – formatting rahix | projects:optics:log [2026/02/22 18:33] (current) – [Day 2026-02-21 (k8ik, rahix)] rahix | ||
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| ====== Lab Notes for Optics Experiments ====== | ====== Lab Notes for Optics Experiments ====== | ||
| + | ==== Day 2026-02-21 (k8ik, rahix) ==== | ||
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| + | We successfully coupled our shitty Aliexpress laser into the also high quality single mode fiber. However, we do see a beautiful beam but also what could be higher modes in the output, meaning the fiber is either broken at the end, the collimator has some issues or the fiber is indeed a multimode fiber. Most likely explanation right now: The fiber is a " | ||
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| + | We put a collimator on the other fiber end and aimed it at our camera to take some beam pictures. | ||
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| + | Wrote a little script which outputs the average intensity across the camera frame as a single number so we can tune the fiber coupling against it [[https:// | ||
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| + | Even after adjustment, only very little power coming out of the fiber. | ||
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| + | First, here is a capture of a higher mode: | ||
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| + | With a bit more tuning of the fiber coupling, we end up seeing some much nicer beam shapes: | ||
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| + | The curve does not look gaussian which is a bit worrying. Current assumption is that this is still a higher transversal mode that just looks close enough. | ||
| ==== Day 2026-01-31 (k8ik) ==== | ==== Day 2026-01-31 (k8ik) ==== | ||
| Aliexpress quality fiber and collimators arrived: | Aliexpress quality fiber and collimators arrived: | ||
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| Rebuild our setup (removed the cube) to test the fiber. The fiber will enable us to get a nice Gaussian beam profile with which we can work in the future. Built in the fiber in a very adventurous setup because we do not yet have a mount printed. Tried to couple in the laser but did not succeed yet. The fiber is built very close to the first mirror and quite far to the second to decouple place and angle of the beam entering the fiber. As detector tried the bare eye (without collimating optics at the fiber end). Need complete darkness to get first signal to optimize on next time. | Rebuild our setup (removed the cube) to test the fiber. The fiber will enable us to get a nice Gaussian beam profile with which we can work in the future. Built in the fiber in a very adventurous setup because we do not yet have a mount printed. Tried to couple in the laser but did not succeed yet. The fiber is built very close to the first mirror and quite far to the second to decouple place and angle of the beam entering the fiber. As detector tried the bare eye (without collimating optics at the fiber end). Need complete darkness to get first signal to optimize on next time. | ||
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| Way forward: We need a proper mount for the fiber collimator, such that we can use a pinhole to pre-align the beam as good as possible for getting a first signal. With unclear exact mounting angle, it will get very difficult to get a first signal. Back tracking the backreflection did not yet lead to success. | Way forward: We need a proper mount for the fiber collimator, such that we can use a pinhole to pre-align the beam as good as possible for getting a first signal. With unclear exact mounting angle, it will get very difficult to get a first signal. Back tracking the backreflection did not yet lead to success. | ||