<div dir="auto">What about deorbiting them with light pressure? Keep them in one piece and give them a little push every day.</div><br><div class="gmail_quote"><div dir="ltr" class="gmail_attr">On Wed, Sep 23, 2020, 9:57 PM KENT BRITAIN via Ground-Station <ground-station@lists.openresearch.institute> wrote:<br></div><blockquote class="gmail_quote" style="margin:0 0 0 .8ex;border-left:1px #ccc solid;padding-left:1ex"><div><div style="font-family:Helvetica Neue,Helvetica,Arial,sans-serif;font-size:16px"><div></div>
<div dir="ltr">I am pretty sure these LASERS would not leave any small pieces!</div><div dir="ltr"><br></div><div dir="ltr">Well, maybe a few atoms might stick together. Kent<br></div><div><br></div>
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On Wednesday, September 23, 2020, 11:41:14 PM CDT, Phil Karn via Ground-Station <ground-station@lists.openresearch.institute> wrote:
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<div><div dir="ltr">On 9/23/20 14:33, Jeff WE4B via Ground-Station wrote:<br clear="none">> I wonder how well the laser ‘pulverized’ these objects in orbit. It’s<br clear="none">> a very interesting solution. Something will have to be done soon to<br clear="none">> mitigate all of the objects that we have inserted into orbit. If I had<br clear="none">> venture capital money, I would partner with Bob McGwier and try to<br clear="none">> figure out a solution. <br clear="none"><br clear="none">I wonder the same thing. Breaking up one big piece of debris into a<br clear="none">whole bunch of smaller pieces of debris that are harder to track only<br clear="none">makes the problem much worse.<br clear="none"><br clear="none">A somewhat more promising use of lasers would be not to break up these<br clear="none">objects but to ablate them strongly enough to provide some delta V to<br clear="none">kick them into lower, shorter-lived orbits. But I'm still skeptical.<br clear="none"><br clear="none">I do have one totally wild idea for clearing out parts of LEO. Lob a<br clear="none">suborbital device into LEO space. When it gets there, it rapidly deploys<br clear="none">a big ball of something like polyurethane foam in the path of a cloud of<br clear="none">orbital debris. The ball does NOT need to actually capture the debris,<br clear="none">it only needs to exchange enough momentum to bring down the debris<br clear="none">particle after it passes through. The ball itself, lacking orbital<br clear="none">momentum, soon falls out of the sky.<br clear="none"><br clear="none">I got this idea while reading about the use of small pieces of aerogel<br clear="none">to capture (admittedly tiny) comet particles moving at relative<br clear="none">velocities of 50 km/s or so, much higher than the ~7 km/s in LEO.<br clear="none"><br clear="none">One problem with this scheme -- and the laser -- is that they look too<br clear="none">much like antisatellite weapons. Which they are. There needs to be a<br clear="none">treaty completely banning intentional creation of long-lived orbital<br clear="none">debris, specifically including antisatellite weapon tests, but with<br clear="none">exceptions for systems designed to remove debris as opposed to creating<br clear="none">it. As long as the debris owners don't object, of course.<div id="m_4958884091497643259ydp2d8559a0yqtfd47390"><br clear="none"><br clear="none">--Phil<br clear="none"><br clear="none"><br clear="none"></div></div></div>
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