Progress Reports

Spring 2015
Prior to the spring of 2015, I had, wearing lab gloves, cut light-guide fibers with a dremel and stored them in the fiber dark box.

At the beginning of the spring semester, I worked on taking apart a wood frame used for the bending of fibers. This took some time, as salvaging the wood and screws proved difficult without power tools. However, once I had the revelation that I actually had access to power tools, the progress was speedy and efficient. The only issues I had involved some very tenacious screws that would have been much easier taken care of using some bolt cutters. I also worked on reorganizing the supplies we had stockpiled in Schweitzer Lab, as well as restacking them for increased lab safety. They are currently on a shelving that canopies the computer, monitor and bending box.

For the most of the spring semester, however, I worked mostly on production of suitable-for-testing optical fibers.

In February, Liana taught me the polishing method for Scintillating Fibers (SciFis), which involves using a collar that is slightly shorter than the length of the fibers to rub the ends of the fibers on high grade sandpaper and then printer paper for a mirror finish. I found the process to be rather efficient. However, a grey grit would be formed when accidental rubbing of the collar on sandpaper occurred, and this could sometimes scratch the fiber ends or lodge the particles in the claddings of the fibers. This was unacceptable, but the use of Kim wipes on the polishing end greatly reduced the scratches and lodging. I highly recommend some quick swipes of a Kim wipe on the end every 45 seconds or so on the sandpaper, and certainly before using the printer paper to mirror the ends.

Because the SciFis were not produced in marked bundles, it was easy to bundle unfinished SciFis from a bundle in with a new set of fibers. That is to say, if 14 out of 36 fibers did not end up getting adequately polished, one could separate out the 22 fibers that were finished and bundle the 14 unpolished fibers with 22 new fibers that needed to be polished. This increased speed, as we did not need to resand the fibers that had been finished in order to finish off the fibers that were not hitting the paper and were thusly unpolished. My best yield from a group was 30 out of 36 polished, and this was achieved by giving the fibers more slack (pushing them out further from the collar) and giving them a bit more sanding time, taking care to keep the collar as level with the paper as possible.

The Light Guide (LG) fibers were a different story altogether. As the LG fibers were over a meter in length (as opposed to the SciFis, which came in at about 2 cm), there was some trouble bundling the fibers so that all 30 would be at the same distance from the collar. Bundling could take almost an hour without the bundling tool, and with it could take about 20 minutes. The fibers would end up not being all polished, and to avoid doing many of them singly we had to rebundle them over and over again. Thus, the main issue was bundling the fibers appropriately. There were also issues holding the fibers upright while polishing with one hand, which would lead to the collar being less uniformly level and the fibers taking longer to be polished.

Finally, another issue with the LGs was the fact that they were bundled and marked 1-15 and 18-32. The issue here was that the rollover with the SciFis could not be done here, since mixing bundles would result in mixed fibers, and we could end up losing track of what fiber was from what bundle. This could be alleviated with an additional numbering rubber band being added to indicate the bundle it came from, but I did not think of that at the time and it slowed production.

In the later part of the semester, I learned fusing. Fusing seemed to be down to an efficient science, and the fusing unit had no problems at all. The only issue is ensuring the pressures remain where they should be, and this is easily adjusted. Production is slow but consistent, with little confounding factors. I had one bad fuse, and I’m not quite sure yet as to what occurred. It may have been that I let a fiber slip by without inspecting the end (perhaps it was chipped) or perhaps some sort of air bubble formed during fusing. The only other issue is the presence of many SciFis that are about .1 millimeters thicker than the acceptable range. Seemingly, there was a good portion of the spool that was much thicker than expected. The other fibers are at an acceptable width of about 1.95 mm.