The expanding Universe, full of galaxies and the complex structure we observe today, arose from a ... [+] smaller, hotter, denser, more uniform state. But even that initial state had its origins, with cosmic inflation as the leading candidate for where that all came from.
Of all the questions humanity has ever pondered, perhaps the most profound is, where did all of this come from? For generations, we told one another tales of our own invention, and chose the narrative that sounded best to us. The idea that we could find the answers by examining the Universe itself was foreign until recently, when scientific measurements began to solve the puzzles that had stymied philosophers, theologians, and thinkers alike.
The 20th century brought us General Relativity, quantum physics, and the Big Bang, all accompanied by spectacular observational and experimental successes. These frameworks enabled us to make theoretical predictions that we then went out and tested, and they passed with flying colors while the alternatives fell away. But at least for the Big Bang it left some unexplained problems that required us to go farther. When we did, we found an uncomfortable conclusion that were still reckoning with today: any information about the beginning of the Universe is no longer contained within our observable cosmos. Heres the disconcerting story.
The stars and galaxies we see today didn't always exist, and the farther back we go, the closer to ... [+] an apparent singularity the Universe gets, as we go to hotter, denser, and more uniform states. However, there is a limit to that extrapolation, as going all the way back to a singularity creates puzzles we cannot answer.
In the 1920s, just under a century ago, our conception of the Universe changed forever as two sets of observations came together in perfect harmony. For the past few years, scientists led by Vesto Slipher had begun to measure spectral lines emission and absorption features of a variety of stars and nebulae. Because atoms are the same everywhere in the Universe, the electrons within them make the same transitions: they have the same absorption and emission spectra. But a few of these nebulae, the spirals and ellipticals in particular, had extremely large redshifts that corresponded to high recession speeds: faster than anything else in our galaxy.
Starting in 1923, Edwin Hubble and Milton Humason began measuring individual stars in these nebulae, determining the distances to them. They were far beyond our own Milky Way: millions of light-years away in most instances. When you combined the distance and redshift measurements together, it all pointed to one inescapable conclusion that was also theoretically supported by Einsteins General theory of Relativity: the Universe was expanding. The farther away a galaxy is, the faster it appears to recede from us.
The original 1929 observations of the Hubble expansion of the Universe, followed by subsequently ... [+] more detailed, but also uncertain, observations. Hubble's graph clearly shows the redshift-distance relation with superior data to his predecessors and competitors; the modern equivalents go much farther. Note that peculiar velocities always remain present, even at large distances, but that the general trend is what's important.
If the Universe is expanding today, that means that all of the following must be true.
Those are some remarkable and mind-bending facts, as they enable us to extrapolate whats going to happen to the Universe as time marches inexorably forwards. But the same laws of physics that tell us whats going to happen in the future can also tell us what happened in the past, and the Universe itself is no exception. If the Universe is expanding, cooling, and getting less dense today, that means it was smaller, hotter, and denser in the distant past.
While matter (both normal and dark) and radiation become less dense as the Universe expands owing to ... [+] its increasing volume, dark energy, and also the field energy during inflation, is a form of energy inherent to space itself. As new space gets created in the expanding Universe, the dark energy density remains constant.
The big idea of the Big Bang was to extrapolate this back as far as possible: to ever hotter, denser, and more uniform states as we go earlier and earlier. This led to a series of remarkable predictions, including that:
All four of these predictions have been observationally confirmed, with that leftover bath of radiation originally known as the primeval fireball and now called the cosmic microwave background discovered in the mid-1960s often referred to as the smoking gun of the Big Bang.
Arno Penzias and Bob Wilson at the location of the antenna in Holmdel, New Jersey, where the cosmic ... [+] microwave background was first identified. Although many sources can produce low-energy radiation backgrounds, the properties of the CMB confirm its cosmic origin.
You might think that this means that we can extrapolate the Big Bang all the way back, arbitrarily far into the past, until all the matter and energy in the Universe is concentrated into a single point. The Universe would reach infinitely high temperatures and densities, creating a physical condition known as a singularity: where the laws of physics as we know them give predictions that no longer make sense and cannot be valid anymore.
At last! After millennia of searching, we had it: an origin for the Universe! The Universe began with a Big Bang some finite time ago, corresponding to the birth of space and time, and that everything weve ever observed has been a product of that aftermath. For the first time, we had a scientific answer that truly indicated not only that the Universe had a beginning, but when that beginning occurred. In the words of Georges Lemaitre, the first person to put together the physics of the expanding Universe, it was a day without yesterday.
A visual history of the expanding Universe includes the hot, dense state known as the Big Bang and ... [+] the growth and formation of structure subsequently. The full suite of data, including the observations of the light elements and the cosmic microwave background, leaves only the Big Bang as a valid explanation for all we see. As the Universe expands, it also cools, enabling ions, neutral atoms, and eventually molecules, gas clouds, stars, and finally galaxies to form.
Only, there were a number of unresolved puzzles that the Big Bang posed, but presented no answers for.
Why did regions that were causally disconnected i.e., had no time to exchange information, even at the speed of light have the same temperatures as one another?
Why were the initial expansion rate of the Universe (which works to expand things) and the total amount of energy in the Universe (which gravitates and fights the expansion) perfectly balanced early on: to more than 50 decimal places?
And why, if we reached these ultra-high temperatures and densities early on, are there no leftover relic remnants from those times in our Universe today?
Throughout the 1970s, the top physicists and astrophysicists in the world worried about these problems, theorizing about possible answers to these puzzles. Then, in late 1979, a young theorist named Alan Guth had a spectacular realization that changed history.
In the top panel, our modern Universe has the same properties (including temperature) everywhere ... [+] because they originated from a region possessing the same properties. In the middle panel, the space that could have had any arbitrary curvature is inflated to the point where we cannot observe any curvature today, solving the flatness problem. And in the bottom panel, pre-existing high-energy relics are inflated away, providing a solution to the high-energy relic problem. This is how inflation solves the three great puzzles that the Big Bang cannot account for on its own.
The new theory was known as cosmic inflation, and postulated that perhaps the idea of the Big Bang was only a good extrapolation back to a certain point in time, where it was preceded (and set up) by this inflationary state. Instead of reaching arbitrary high temperatures, densities, and energies, inflation states that:
until inflation ends. When it ends, the energy that was inherent to space itself the energy thats the same everywhere, except for the quantum fluctuations imprinted atop it gets converted into matter and energy, resulting in a hot Big Bang.
The quantum fluctuations that occur during inflation get stretched across the Universe, and when ... [+] inflation ends, they become density fluctuations. This leads, over time, to the large-scale structure in the Universe today, as well as the fluctuations in temperature observed in the CMB. New predictions like these are essential for demonstrating the validity of a proposed fine-tuning mechanism.
Theoretically, this was a brilliant leap, because it offered a plausible physical explanation for the observed properties the Big Bang alone could not account for. Causally disconnected regions have the same temperature because they all arose from the same inflationary patch of space. The expansion rate and the energy density were perfectly balanced because inflation gave that same expansion rate and energy density to the Universe prior to the Big Bang. And there were no left over, high-energy remnants because the Universe only reached a finite temperature after inflation ended.
In fact, inflation also made a series of novel predictions that differed from that of the non-inflationary Big Bang, meaning we could go out and test this idea. As of today, in 2020, weve collected data that puts four of those predictions to the test:
The large, medium and small-scale fluctuations from the inflationary period of the early Universe ... [+] determine the hot and cold (underdense and overdense) spots in the Big Bang's leftover glow. These fluctuations, which get stretched across the Universe in inflation, should be of a slightly different magnitude on small scales versus large ones.
With data from satellites like COBE, WMAP, and Planck, weve tested all four, and only inflation (and not the non-inflationary hot Big Bang) yields predictions that are in line with what weve observed. But this means that the Big Bang wasnt the very beginning of everything; it was only the beginning of the Universe as were familiar with it. Prior to the hot Big Bang, there was a state known as cosmic inflation, that eventually ended and gave rise to the hot Big Bang, and we can observe the imprints of cosmic inflation on the Universe today.
But only for the last tiny, minuscule fraction of a second of inflation. Only, perhaps, for the final ~10-33 seconds of it (or so) can we observe the imprints that inflation left on our Universe. Its possible that inflation lasted for only that duration, or for far longer. Its possible that the inflationary state was eternal, or that it was transient, arising from something else. Its possible that the Universe did begin with a singularity, or arose as part of a cycle, or has always existed. But that information doesnt exist in our Universe. Inflation by its very nature erases whatever existed in the pre-inflationary Universe.
The quantum fluctuations that occur during inflation do indeed get stretched across the Universe, ... [+] but they also cause fluctuations in the total energy density. These field fluctuations cause density imperfections in the early Universe, which then lead to the temperature fluctuations we experience in the cosmic microwave background. The fluctuations, according to inflation, must be adiabatic in nature.
In many ways, inflation is like pressing the cosmic reset button. Whatever existed prior to the inflationary state, if anything, gets expanded away so rapidly and thoroughly that all were left with is empty, uniform space with the quantum fluctuations that inflation creates superimposed atop it. When inflation ends, only a tiny volume of that space somewhere between the size of a soccer ball and a city block will become our observable Universe. Everything else, including any of the information that would enable us to reconstruct what happened earlier in our Universes past, now lies forever beyond our reach.
Its one of the most remarkable achievements of science of all: that we can go back billions of years in time and understand when and how our Universe, as we know it, came to be this way. But like many adventures, revealing those answers has only raised more questions. The puzzles that have arisen this time, however, may truly never be solved. If that information is no longer present in our Universe, it will take a revolution to solve the greatest puzzle of all: where did all this come from?
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