This logarithmic view of the Universe shows our solar system, the galaxy, the cosmic web, and the ... [+] limits of what's observable out to a distance of 46.1 billion light-years away. This view is only accessible to us today, 13.8 billion years after the start of the hot Big Bang. As we run the clock backwards, the Universe gets smaller, but there is a limit.
Today, when you look out in any direction as far as the laws of physics allow us to see, the limits of whats observable extend to truly astronomical distances. At the farthest reaches of our observable limits, the most ancient light we can see was emitted a whopping 13.8 billion years ago: corresponding to the hot Big Bang itself. Today, after traveling through our expanding Universe, that light finally arrives here on Earth, carrying information about objects that are presently located some 46.1 billion light-years away. Its only due to the expanding fabric of space that the most ancient light we can see corresponds to distances that exceed 13.8 billion light-years.
As time continues to march forward, well be able to see even farther away, as light thats still on its way eventually reaches us. Nonetheless, at any given time, theres a limit to how far away we can see: a limit to the observable Universe. This also means that if we went back to any point in the distant past, our Universe would also have a finite, quantifiable size: smaller than it is today, dependent on how much time has passed since the hot Big Bang.
But what if we went all the way back: back to the very beginning, and the very first moment of the hot Big Bang itself? Surprisingly, it doesnt give us a singularity, where the Universe reaches infinite densities and temperatures at an infinitesimal size. Instead, theres a limit: a smallest possible size that the Universe could have had. Heres why that limit exists, and how we can figure out the minimum size of the early Universe.
This image shows a slice of the matter distribution in the Universe as simulated by the GiggleZ ... [+] complement to the WiggleZ survey. The large-scale structure of the Universe grew from a more uniform, hotter, denser state, and only occurred as the Universe gravitated, expanded and cooled.
In our Universe, if we want to know anything about either what it will do in the future or what it was doing in the past, we need to understand the rules and laws that govern it. For the Universe, and in particular for how the fabric of the Universe evolves with time, those rules are set forth by our theory of gravity: Einsteins General Relativity. If you can tell Einsteins equations what all the different types of matter and energy in the Universe are, and how they move and evolve over time, those same equations can tell you how space will curve and evolve including by expanding or contracting at any point in the past or future.
The Universe we have is not only governed by Einsteins General Relativity, but a special case of it: where the Universe is both:
If the Universe is the same in terms of matter-and-energy in all places and in all directions, then we can derive a Universe that must either expand or contract. This solution was first derived by Alexander Friedmann and is known as the Friedmann-Lematre-Robertson-Walker (FLRW) metric, and the equations that govern the expansion (or contraction) are known as the Friedmann equations.
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.
If you can measure or determine whats in your Universe, then these equations will tell you all about your Universes properties in both the past and the future. Just by knowing, today, what makes up your Universe and what the expansion rate is right now, you can determine:
among many other properties.
We can do this as long as the types of energy in the Universe remain constant: as long as you dont convert one form of energy (like matter) into another form of energy (like radiation) that obeys a different set of rules as the Universe expands. To understand what the Universe did in the distant past or will do in the future, we have to understand not only how every individual component evolves with time and scale, but to understand when and under what circumstances these different components transform into one another.
Here in our Universe, based on what's in it today and how fast the Universe is presently expanding, ... [+] we can determine how much of the Universe was dominated by any different form of energy we care to look at: normal matter, dark matter, dark energy, neutrinos, and radiation. All five forms are present, but different components dominate at different times.
Today, the Universe, as we measure it, is made up of the following forms of energy in the following amounts.
For most of the Universes history, these have been the only five components that mattered. They are all present today, and they were all present at least, we think they were all present right from the start of the hot Big Bang. When we go back as far as we know how to go, everything is consistent with this idea.
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.
But can we go back arbitrarily far? All the way back to a singularity?
If the Universe were always filled with matter or radiation, that would be exactly what were able to do. Wed go back to a single point of infinite density, infinite temperature, of space having an infinitesimally small size, of a time that corresponded to zero, and where the laws of physics broke down. There would be no limit to how far back you could run your equations, or how far you could extrapolate this line of thinking.
But if the Universe emerged from a singular high-energy state like that, there would have been consequences for our Universe: consequences that run counter to what we actually observe. One of them is that the temperature fluctuations in the Big Bangs leftover glow what we see today as the Cosmic Microwave Background radiation would have been as large as the ratio of the maximum energy achieved to the Planck scale, the latter of which is around ~1019 GeV in terms of energy. The fact that the fluctuations are much, much smaller than that, by about a factor of ~30,000, tells us that the Universe could not have been born arbitrarily hot.
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.
In fact, from detailed measurements of both the temperature fluctuations in the cosmic microwave background and the polarization measurements of that same radiation, we can conclude that the maximum temperature the Universe achieved during the hottest part of the hot Big Bang was, at most, somewhere around ~1015 GeV in terms of energy. There must have been a cutoff to how far back we can extrapolate that our Universe was filled with matter-and-radiation, and instead there must have been a phase of the Universe that preceded and set up the hot Big Bang.
That phase was theorized back in the early 1980s, before these details of the cosmic microwave background were ever measured, and is known as cosmic inflation. According to the theory of inflation, the Universe:
which triggered and began the hot Big Bang.
The analogy of a ball sliding over a high surface is when inflation persists, while the structure ... [+] crumbling and releasing energy represents the conversion of energy into particles, which occurs at the end of inflation. This transformation from inflationary energy into matter and radiation represents an abrupt change in the expansion and properties of the Universe.
So, how hot did the Universe get at the hottest part of the hot Big Bang? If we can answer that question, we can learn how far back we can extrapolate the Universe we have today, and can learn what its minimum size as close as we can get to the birth of what we know as our Universe must have been. Fortunately, theres a straightforward relationship between how early we go in the early Universe and how hot the Universe could have gotten in its earliest, radiation-dominated phase.
Starting from today, with our Universe that contains dark energy, dark matter, normal matter, neutrinos, and radiation, we can begin by running the clock backwards. What we'll find is that, today, the Universe is transitioning to a phase where it expands exponentially, and where distances between objects will grow without bound. But earlier, the Universe was dominated by matter, where it grew at a particular rate, and even before that, it was dominated by radiation, where it grew at still a different rate. We can even plot this out: given how much time occurred since the hot Big Bang, how large was the size of the observable Universe?
The size of the Universe (y-axis) versus the age of the Universe (x-axis) on logarithmic scales. ... [+] Some size and time milestones are marked, as appropriate. One can continue to extrapolate this forwards and backwards in time, but only so long as the components of energy that exist today didn't have transitional points.
As you can see, there are a series of remarkable milestones. Today, 13.8 billion years after the Big Bang, the Universe is 46.1 billion light-years in radius in all directions from our vantage point. Stepping backwards:
And yet, theres a cutoff to how far back we can go in time, which corresponds to the highest temperature the Universe could have ever reached.
The contribution of gravitational waves left over from inflation to the B-mode polarization of the ... [+] Cosmic Microwave background has a known shape, but its amplitude is dependent on the specific model of inflation. These B-modes from gravitational waves from inflation have not yet been observed, but the upper limits on their magnitude allow us to place constraints on the maximum temperature achieved during the hot Big Bang.
If you allow your Universe to get too hot, early on, you would see that it created an energetic spectrum of gravitational waves. You dont need an observatory like LIGO to see it; it would imprint itself in the polarization signal on the cosmic microwave background. The tighter our limits become i.e., the longer we go without detecting gravitational waves from the early Universe and the more stringently we can constrain their presence the lower that means the hottest temperature could have been.
About 15 years ago, we could only constrain the energy-equivalent of that temperature to be about 4 1016 GeV, but subsequent superior measurements have lowered that value substantially. Today, we can say that the Universe got no hotter, at the hottest part of the hot Big Bang, than about ~1015 GeV in terms of energy. That places a cutoff on how far you can extrapolate the hot Big Bang backwards: to a time of ~10-35 seconds and a distance scale of ~1.5 meters. The Universe, at the earliest stages we can ascribe a size to it, could have been no smaller than roughly the size of a human being. This is a tremendous and recent improvement by about a factor of ten over a decade ago, when we would have said no smaller than a soccer ball instead.
(It could still have been much larger, like the size of a city block or even a small city, for example. The Universe certainly got much hotter than it ever gets at the Large Hadron Collider, which only reaches ~104 GeV, but those upper size-limit constraints have a lot of flexibility.)
Hospital Corpsmen 3rd Class Tarren C. Windham kicks a soccer ball with an Iraqi child. That soccer ... [+] ball, ten years ago, represented approximately the minimum size that the Universe was at the moment of its birth. Today, it's approximately the size of the child in the photo, as the bounds have shifted due to improved observational constraints.
No matter how tempting it may be to think that the Universe arose from a singular point of infinite temperature and density, and that all of space and time emerged from that starting point, we cannot responsibly make that extrapolation and still be consistent with the observations that weve made. We can only run the clock back a certain, finite amount until the story changes, with todays observable Universe and all the matter and energy within it allowed to be no smaller than the wingspan of a typical human teenager. Any smaller than that, and wed see fluctuations in the Big Bangs leftover glow that simply arent there.
Before the hot Big Bang, our Universe was dominated by energy inherent to space, or to the field that drives cosmic inflation, and we have no idea how long inflation lasted for or what set up and caused it, if anything. By its very nature, inflation wipes our Universe clean of any information that came before it, imprinting only the signals from inflations final fractions-of-a-second onto our observable Universe today. To some, thats a bug, demanding an explanation all its own. But to others, this is a feature that highlights the fundamental limits of not only whats known, but whats knowable. Listening to the Universe, and what it tells us about itself, is in many ways the most humbling experience of all.
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