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Astronomers are blessed to live in a largely transparent world. While taking that for granted, we’re continually struggling to penetrate the remaining realms of darkness. Southern Summer Nightsky.
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Astronomers are blessed to live in a largely transparent world While taking that for granted, we’re continually struggling to penetrate the remaining realms of darkness Southern Summer Nightsky
Earth’s atmosphere is remarkably transparent to visible light, with a few critical exceptions: 0) Scattered light swamps much fainter signal from stars and galaxies: Don’t forget to turn out the lights! Clouds (suspended droplets) can easily block our vision of space. tNicet to have desert mountain ranges, ttLuckytt we’re not on our sister planet, Venus
Wish I were HERENot THERE! Venera lander on gloomy surface of Venus
Earth’s atmosphere is remarkably transparent to visible light, with a few critical exceptions: Ozone absorbs (lethal) Ultraviolet radiation (too little transparency would be fatal)
Sunlight, hitting Sunlight Transparency, The ratio of the red to the black curves, is 80% for most visible light BGYR UV, wiped out by O3 IR, Absorbed by H20, C02, CH4
Earth’s atmosphere is remarkably transparent to visible light, with a few critical exceptions: 3) Greenhouse molecules absorb Infrared radiation escaping the Earth, keeping our surface above freezing
Nearly every aspect of scientific revolutions, from Galileo to Newton, to Einstein, needed transparent views of the sky, particularly our Solar System In recent decades, astronomers have spent $Billions$ to get around those 3 obstructions, with special telescopes in special locations
Next breakthroughs in human perception of the cosmos came because we can see beyond our Solar System tttVery Luckyttt Most of our Milky Way galaxy is transparent to visible light Hercules Deep Field
Milky Way Was revealed by Galileo’s telescope to be a GALAXY of billions of Suns
But a serious problem is evident: Blue light cannot travel through the disk of our Galaxy Transparency only holds for long wavelengths, Infrared and Radio This infrared picture (tilted to horizontal) gives much better view of Our Milky Way galaxy than any visible photograph Closer view of the plane of the Milky Way towards Sagitarius, Which systematically absorbs the blue light, But Passes the redder light
Less than 1% of galactic mass is in SOLID form, “dust” grains the size of the wavelength of visible light Same effect is seen at sunset
Strong motivation to improve infrared and radio telescopes Dusty regions of space are where all stars (and planets) were, and are formed
On outskirts of Milky Way, we have an unobstructed view out of our galactic plane ttLuckytt Deep (intergalactic) Space is almost completely empty Using large telescopes as time machines, In all directions, we see through the foreground of Milky Way stars, to discover an almost endless superposition of galaxies, all the way back to their birth Milky Way Star (foreground)
Hercules Deep Field,a 13-Billion Light-year Needle “drill core” across the history of the Universe, traces most of the evolution of galaxies, from origins to present day Several thousand galaxies are detectable in this little picture, hundred billion over entire sky 2 minutes of arc (1/30th of a degree) = about 1 million light years across, at typical galaxy distance
Ultimate limit of Universe’s Transparency: 380,000 years after the Big Bang, all atoms were ionized the resulting free electrons made earlier times in the Universe completely opaque (scattering of light is just as bad as absorbing it) Milky Way “Baby Picture”
We have seen that “free electron wall”, it is the Cosmic Microwave Background Radiation NASA’s WMAP Contrast of microwave brightness extremely enhanced, to reveal the 1 in 100,000 density excesses that were to evolve into…Us
Unlike the births of stars, planets or galaxies, the earliest epoch of the Universe will never be visible, at any wavelength of light
In principle, we will someday observe the earliest moments of the Big Bang not by detecting its photons, but instead its neutrinos and gravity waves They pass transparently through darn near anything
Nearly every aspect of scientific revolutions, from Galileo to Newton, to Einstein, needed transparent views of the sky, particularly our Solar System