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Light fantastic (14 billion year old light imaged)
AFP ^ | May 24 2002

Posted on 05/24/2002 8:06:47 AM PDT by dead

This image shows the most detailed image of the oldest light ever emitted,
faint microwave radiation from the farthest reaches of the universe.
Image: AFP/CBI/Caltech/NSF

Washington: Astronomers today published images of the universe in its earliest stages that were captured at an observatory high in the Chilean Andes, reinforcing the Big Bang theory of the origin of galaxies.

The images show the oldest light ever emitted by the universe in the closest detail ever observed, and were taken by the Cosmic Background Imager (CBI) operated by the California Institute of Technology (Caltech) in Pasadena.

Researchers were able to detect minute variations in the cosmic microwave background, radiation that has travelled to earth over almost 14 billion years.

A map of temperature fluctuations shows the first tentative seeds of matter and energy that would later evolve into clusters of hundreds of galaxies, according to the scientists.

The measurements provide evidence of part of the Big Bang theory - that of inflation, which speculates that the universe underwent a violent expansion in its first micro-moments.

After about 300,000 years the universe cooled enough to allow the seeds of matter to form and became "transparent," allowing light to pass through, with remnants of that energy observed by the imager.

The data also provided new information about the repulsive force called "dark energy" that appears to defy gravity and force the universe to accelerate at an ever-increasing pace.

"We have seen, for the first time, the seeds that gave rise to clusters of galaxies, thus putting theories of galaxy formation on a firm observational footing," said team leader Anthony Readhead of Caltech.

"These unique high-resolution observations provide a new set of critical tests of cosmology, and provide new and independent evidence that the universe is flat and is dominated by dark matter and dark energy," he added.

Readhead, along with Caltech colleagues Steve Padin and Timothy Pearson, plus others from Canada, Chile and the United States, worked to generate the measurements of the cosmic microwave background.

"This is basic research at its finest and most exciting," said NSF director Rita Colwell. "Each new image of the early universe refines our model of how it all began."

Numerous researchers believe that 95 per cent of the mass of the universe is invisible, made up of 50 per cent vacuum and 45 per cent dark matter.

Using a far superior resolution, the CBI has been working on research begun by the US Cosmic Background Explorer (COBE) satellite which 10 years ago first highlighted evidence of fluctuations of the first light of the cosmos.

The observatory, located in the world's driest desert at Atacama, Chile is some 5,080 metres above sea level. Extremely low humidity there optimises the equipment's observation capabilities.

Five papers on the CBI data were submitted today to the Astrophysical Journal for publication.


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To: dead
Dumb question about something I've never really understood and has always bugged me: How did we arrive at this point in spacetime before light from the Big Bang (or from shortly thereafter) did?
21 posted on 05/24/2002 9:30:45 AM PDT by LibWhacker
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To: eastsider
Same kind of energy that occurs here. In fact everything that occurs and is seen in this universe is composed of the energy that popped out of the vacuum. There is no source for the energy in the vacuum, it always existed.

All the different particles of matter that exist have an antiparticle possibility. The vacuum is composed of the entire spectrum of particles and their antiparticles.

For instance the antiparticle for the electron is the positron. It's a negative energy electron, moving backward in time. In this universe it looks like(behaves like) a positively charged particle of the same mass as the electron, positive energy, moving forward in time.

Particle pairs pop out of the vacuum all the time, but have an extremely short lifetime. Their life is limited to ~<h, Planck's constant, divided by the total energy of the pair. If they stay any longer they would violate the conservation of energy. While they're out they do interact though and experiment shows it.

22 posted on 05/24/2002 9:31:11 AM PDT by spunkets
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Comment #23 Removed by Moderator

To: LibWhacker
"How did we arrive at this point in spacetime before light from the Big Bang (or from shortly thereafter) did?"

The universe is like the debris from the original blast. That debris has a temperature corresponding to how far it cooled down. Everything that has a temperature(motion) emits light that has a maximun wavelength, or frequency, according to that particular temp. The light they're looking at is the light that's emitted all over as a result of the universe having cooled down so far. When a particular photon was emitted usually isn't known, it's the maximum of the envelope of frequencies that's important.

24 posted on 05/24/2002 9:59:11 AM PDT by spunkets
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To: LibWhacker
BTW, my post #24 describes black body radiation.
25 posted on 05/24/2002 10:00:42 AM PDT by spunkets
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To: spunkets
Hi, spunkets! Thank you. Is not what you are saying applicable only to the so-called 'background radiation?' In other words, in the picture at the top of this thread, for example, that light is not light that's emitted all over as a result of the universe cooling down, is it?

Please look at my question this way: It's not your explanation, but my total befuddlement that is the problem. :-)

26 posted on 05/24/2002 10:10:16 AM PDT by LibWhacker
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To: spunkets, All
LOL. Okay, thanks. BTW, I got impatient waiting for a response and posted my question to sci.physics and sci.astro under the title 'Dumb question from a physics illiterate about the Big Bang,' if anyone else is confused as I am and wants to see what other physicists and astronomers say about it (if anything).
27 posted on 05/24/2002 10:14:24 AM PDT by LibWhacker
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To: LibWhacker
"In other words, in the picture at the top of this thread, for example, that light is not light that's emitted all over as a result of the universe cooling down, is it?

Well yes it is, but it's a pic of the light emitted from that deep region of space in particular. At least in that case that light has taken a long time to get here. The light may have been emitted at some other frequency and redshifted, but the temperature equilibrium of the universe demands the average maximum appear at the frequencies corresponding to the present temp.

28 posted on 05/24/2002 10:23:59 AM PDT by spunkets
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To: LibWhacker; physicist; radioastronomer
Comments?
29 posted on 05/24/2002 10:31:30 AM PDT by spunkets
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To: spunkets, physicist, radioastronomer

The pic above is of a galactic cluster that's 13.5 billion ly away.

How did we get here before light from this cluster did? Even given a few moments of hyper-expansion immediately after the Big Bang -- which may have given us a bit of a head start on the light -- how could all the mass in the Milky Way and beyond have gotten here before it, especially since, from "our" point of view, the light has been closing the gap at c, and started closing the gap 13.5 billion years ago when the universe was much smaller than it is today?

I'll believe what you say. But I probably won't understand it because of a million bad assumptions on my part. :-)

30 posted on 05/24/2002 11:03:33 AM PDT by LibWhacker
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To: LibWhacker
How did we get here before light from this cluster did? Even given a few moments of hyper-expansion immediately after the Big Bang -- which may have given us a bit of a head start on the light -- how could all the mass in the Milky Way and beyond have gotten here before it, especially since, from "our" point of view, the light has been closing the gap at c, and started closing the gap 13.5 billion years ago when the universe was much smaller than it is today?

The trick is that the different observers will disagree on the size of the gap, thanks to relativity.

Let's start with a "neutral" observer, who is equidistant between the Earth and the distant cluster, and with respect to whom they are moving at equal and opposite velocities. What does he see?

At some distance between the Earth and the cluster, the cluster lets out a pulse of light. (We will also assume that the observer sees the Earth let out a pulse of light towards the cluster, at exactly the same moment.) The light moves towards the Earth at a velocity c. In the observer's rest frame, the time it takes is much larger than the initial distance divided by the velocity. This is because the Earth is moving away from the cluster; the light is trying to hit a moving target. By the time the light catches up to the Earth, it has moved a considerable distance. Even Newton would have understood this.

But what does it look like from the Earth's point of view? Well, that's very different. There are a number of post-Newtonian concepts at work here. I'll spare you the math, but trust me, it works out.

First of all, the distance from the Earth to the cluster, at the moment the Earth lets out its pulse, is actually shorter (yes, shorter) than what was observed by the "neutral" observer. (I'm assuming that all observers correct for the finite speed of light when making distance calculations, of course.) This is because of the Lorentz-Fitzgerald contraction along the direction of motion.

Also, as you know, the light is also moving at c with respect to the Earth, whereas Newton would have expected a smaller velocity (using Galilean relativity). Both of these factors make it seem like the light should get here in short order.

But that assumes that all observers will agree upon the time that the pulse is released. In reality, that isn't so. Two events that are simultaneous in one frame of reference will not be simultaneous in another. In this case, from the Earth's perspective, the pulse of light does not get emitted by the cluster until well after the Earth sends out its pulse.

From the Earth's point of view, events are unfolding much more slowly on the distant cluster, even after you correct for the Doppler effect (finite light speed). This effect is called "time dilation".

There are parts of the universe that are moving so quickly away from us that, even though we were only a tiny distance apart at one time, they haven't had time to begin forming material objects. In that part of the universe, from our point of view, the Big Bang is still going on. And in those references frames, at a time when there are galaxies and worlds in those places, the Earth hasn't yet had time to form.

(I stress that that isn't an illusion of perspective; I'm assuming that we compensate for the finite speed of light. What I'm making is a point about the nature of time itself.)

31 posted on 05/24/2002 12:05:13 PM PDT by Physicist
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To: Physicist
Thank you so much for taking the time to write such a thoughtful, and thought-provoking, answer to my question. I shall think long and hard about the things you've said.

The first thing I'll have to convince myself of (Aaargh! Shades of Halliday and Resnick!) is that there is a point midway between here and there for which Here and There's velocities are equal and opposite. When I think about two guys running in opposite directions, I don't automatically see that that is true. But I'm sure for galaxies, it is true since you said it, and it's up to me to work out the details.

Also it's very interesting to me that you've mentioned, in effect, the relativity of the time-order of events, which when I first saw the proof, almost destroyed my belief that the universe was a rational place. I mean, can everyone imagine, you can indentify a frame of reference for which John Kennedy died before Lee Harvey Oswald pulled the trigger? And that that frame of reference, and the view of the world you get from it, is as legitimate as our own? In other words, you can mathematically prove that Oswald is innocent!

Physics is truly, truly, a marvel. And I say that without an nanogram of sarcasm, only wonder.

32 posted on 05/24/2002 1:09:48 PM PDT by LibWhacker
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To: Physicist
Yippee, I see the mid-point thingy! Hey, that's progress for me, slow as it may be. And the observer can stay there as long as he wants. :-)
33 posted on 05/24/2002 1:48:24 PM PDT by LibWhacker
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To: LibWhacker
When I think about two guys running in opposite directions, I don't automatically see that that is true.

Ah, but in that case, there's a "ether": the sidewalk.

Also it's very interesting to me that you've mentioned, in effect, the relativity of the time-order of events, which when I first saw the proof, almost destroyed my belief that the universe was a rational place. I mean, can everyone imagine, you can indentify a frame of reference for which John Kennedy died before Lee Harvey Oswald pulled the trigger?

No, you can't, because those have a timelike event ordering. (In the case of two "simultaneous" events, the ordering is spacelike. That means that the interval--time difference squared minus space difference squared--is negative; for timelike separation, it's positive.) If there's one thing that the observers all must agree upon, it's causality.

34 posted on 05/24/2002 2:27:24 PM PDT by Physicist
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To: LibWhacker
I forgot to mention: the interval is invariant for all observers.
35 posted on 05/24/2002 2:28:15 PM PDT by Physicist
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To: Physicist; LibWhacker
Physicist, if you don't mind. Is this right? If 2 objects, Earths(E), are traveling apart at some speed v, then the clock frequency(or rate of the clock ticks), f1 that one object E1(our Earth) sees for the other clock,f2 on E2 is:

f2=f11/sqrt(1-v2/c2)

If the doppler effect is thrown in to measure the clocks moving away from E1, then the equation is:

Where f is now the frequency of light observed.

f2=f1sqrt(1-v/c/1+v/c).

In the early universe the rate of the debris flying apart must have been rather low, the debris was close together, the temperature was high and the light each particle of debris was not redshifted(because of the slow relative expansion and rough temp. equilibrium). The universe continued to expand and cool, but this must mean the debris has been continually accelerating from each other

That acceleration must occur along with the cooling that is occuring in order for the radiation seen from receding objects to redshift, or in other words the clocks on the receding debris appear to run slower. Since they both underwent the same acceleration the clocks on E1 and E2 actually run at the same rate, but to a person on one E, the other E's clock appears slow. LibW, light, or radiation has a frequency that depends on the rate of oscillation of some charges emitting the light. If the oscillator slows to a new rate(in quantized jumps), light is emitted at the difference of the 2 fs. Light is absorbed if it is the right f for a possible vibrational change. The oscillators are the clocks and their clock rate, vibration rate, depends on the temperature.

Because of the expansion and cooling the clock rate should appear to decrease and it does. The Lorentz time dialation eq above shows this means the Es are accelerating apart. That means as the universe ages and folks on E1 look at E2 they are looking back in time, since the clocks on E2 appear to run progressively slower. The guy on E2 sees the same for E1. This effect of looking back in time is more than just the time lag for the light to travel the distance.

Since the universe is now ~4oK, f2 is about 1011 and at the beginning of the universe it was 1017(guesses). From the Lorentz eq the relative speed the Es are receding now is ~0.999999999999c(c=speed of light). Such speeds would have been impossible in the early universe, or the temp. and energy exchange would have been much different. Although the debris must have picked up speed quickly and the temp. dropped the same way.

With the edge of the universe gaining mass like it is from continuous acceleration twords c, are we inside a friggin' black hole yet? LOL! I'm going to jump on my Harley now, it's the acceleration that keeps my clock slow and my heart young. Thanks

36 posted on 05/24/2002 6:24:05 PM PDT by spunkets
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To: LibWhacker
Sorry, maybe the fs and Es weren't to clear. f1 is a high clock rate, time passes fast. As the relative speed of separation increases towards the speed of light f2 appears to slow down to someone on Earth.
37 posted on 05/24/2002 6:40:18 PM PDT by spunkets
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To: Physicist
It does seem to me though that the speed of the debris, in the radial direction at least, must have been very close to c at the age of 300K, else we couldn't see back that far.
38 posted on 05/24/2002 7:10:13 PM PDT by spunkets
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To: dead
Light doesn't have stages. Stages have lights.
39 posted on 05/24/2002 7:18:06 PM PDT by Consort
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To: dead
I thought Al Gore invented the Universe. My mind has become weary with all this talk about the speed of light. I think the whole thing is overdone. Seems like that is all physicists want to talk about, "speed of light". What I want to know is, "What is the speed of dark?".
40 posted on 05/24/2002 11:23:35 PM PDT by Lawgvr1955
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