| ▲ | miyuru 5 hours ago |
| Some info from NASA optical communication page. "Even Earth’s atmosphere interferes with optical communications. Clouds and mist can interrupt a laser. A solution to this is building multiple ground stations, which are telescopes on Earth that receive infrared waves. If it’s cloudy at one station, the waves can be redirected to a different ground station. With more ground stations, the network can be more flexible during bad weather. SCaN is also investigating multiple approaches, like Delay/Disruption Tolerant Networking and satellite arrays to help deal with challenges derived from atmospheric means." https://www.nasa.gov/technology/space-comms/optical-communic... Some more info on Optical
Communications for Satellites: https://www.kiss.caltech.edu/workshops/optcomm/presentations... |
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| ▲ | dylan604 2 hours ago | parent | next [-] |
| Seems like reusing some of Star Wars research could be used as well where the beam is constantly adjusted with independent mirrors to keep the beam coherent through the atmosphere. Also learned was the beam itself starts to distort the atmosphere requiring even more adjustments. |
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| ▲ | trhway 3 minutes ago | parent | next [-] | | >the beam itself starts to distort the atmosphere requiring even more adjustments. may be something like this - a high-power impulse making a channel through whatever clouds, mist, dust and after that information carrying ray/impulse through the channel, rinse and repeat | |
| ▲ | themafia an hour ago | parent | prev [-] | | Wouldn't the angle of the offset matter? It seems like it would make scattering worse to be off-axis by too far. Which then also means you have to build ground stations in this range yet far enough apart that they experience different weather yet close enough that you can redundantly link all the sites. Aside from government and massive telecommunications companies who would this serve? | | |
| ▲ | dylan604 an hour ago | parent [-] | | ??? It's just really cool sci-fi tech that I want to see used in something other than DLP chips! JWST and other observatories with segmented primary mirrors kind of use the segment alignment one time to get the correct alignment once. Then there is Adaptive Optics. It's kind of the opposite direction though as they are using a laser to detect the distortion so it can be compensated in the image. From learning about SDI when I was a kid/teen, it's just always been about controlling the laser itself in my mind. | | |
| ▲ | themafia an hour ago | parent [-] | | The JWST does not have to deal with atmosphere or weather and uses a giant sun shield to keep the internal temperature stable so these alignments have the longevity you need to make the platform work. | | |
| ▲ | dylan604 an hour ago | parent [-] | | Yes, maybe my comment wasn't clear if you're thinking I thought JWST was using AO. It used segment control for alignment once. |
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| ▲ | dboreham 3 hours ago | parent | prev [-] |
| So it'll never work in Scotland. |
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