Telescopes searching for brief flashes like supernovae and asteroids have to contend with a rising number of glints from satellites. These glints can last for a fraction of a second, but they're bright enough to be recorded as a starlike object in the field of view of a survey like the Vera Rubin Observatory. In a new study, astronomers identified tens of thousands of these glints captured by a survey telescope, and there could be 80,000/hour happening across the sky.
They can’t make them non-reflective enough to not interrupt really deep observing. Also, that just shifts the problem around. If they are absorbing in the visible, they will likely have huge amounts of blackbody radiation in IR, sub/millimeter, and radio. You would need to make a satellite out of dark matter to not interrupt astronomy.
How about not putting a bunch of janky constantly-needing-replenishment laggy-internet satellites into orbit to begin with where the only real beneficiaries outside of bullshit “remote” excuses is the US military?
They can’t make them non-reflective enough to not interrupt really deep observing. Also, that just shifts the problem around. If they are absorbing in the visible, they will likely have huge amounts of blackbody radiation in IR, sub/millimeter, and radio. You would need to make a satellite out of dark matter to not interrupt astronomy.
How about not putting a bunch of janky constantly-needing-replenishment laggy-internet satellites into orbit to begin with where the only real beneficiaries outside of bullshit “remote” excuses is the US military?