APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
Hypothetical question: Could we see our own Milky Way galaxy -- as it was all those billions of years ago -- in these Hubble Deep Field images? Or if Hubble pointed its mirror in the direction from which our galaxy originated...
- geckzilla
- Ocular Digitator
- Posts: 9180
- Joined: Wed Sep 12, 2007 12:42 pm
- Location: Modesto, CA
- Contact:
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
In addition to Chris's explanation:Chris Peterson wrote:Spikes are not photographic artifacts, they are optical artifacts caused by diffraction off the secondary mirror supports. Every object in the image has spikes, but for dim extended objects they are below the noise floor. Some galaxies have bright enough cores that they produce visible spikes in this deep image. They are real- not the product of nearby stars superimposed on the galaxies.Tszabeau wrote:I was pondering the scale of this image using the spiked stars as reference markers which, helps me gain some perspective. I have always assumed that the artifact spikes appear around relatively nearby stars within the Milky Way however, I notice a few of the galaxy's also appear to have spikes. Are those galaxies being superimposed by nearby spiked-stars making them just to appear that way or is the exposure, simply, deep enough to cause nearer galaxies to appear spiked as shallower exposures make nearer stars to?
Yes, I know the spikes are photographic artifacts.
https://en.wikipedia.org/wiki/Active_galactic_nucleus
Just call me "geck" because "zilla" is like a last name.
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
http://apod.nasa.gov/apod/ap121014.htmlIndigo_Sunrise wrote:do you have a link to the Hubble eXtreme Deep Field
http://spacetelescope.org/images/heic1214a/
http://hubblesite.org/news/2012/37
Know the quiet place within your heart and touch the rainbow of possibility; be
alive to the gentle breeze of communication, and please stop being such a jerk. — Garrison Keillor
alive to the gentle breeze of communication, and please stop being such a jerk. — Garrison Keillor
- Chris Peterson
- Abominable Snowman
- Posts: 18599
- Joined: Wed Jan 31, 2007 11:13 pm
- Location: Guffey, Colorado, USA
- Contact:
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
Our galaxy originated where we are. That is, its light has always been moving away. There's nothing to see somewhere else.jmcgericault wrote:Hypothetical question: Could we see our own Milky Way galaxy -- as it was all those billions of years ago -- in these Hubble Deep Field images? Or if Hubble pointed its mirror in the direction from which our galaxy originated...
Chris
*****************************************
Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com
*****************************************
Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com
- geckzilla
- Ocular Digitator
- Posts: 9180
- Joined: Wed Sep 12, 2007 12:42 pm
- Location: Modesto, CA
- Contact:
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
Another "in addition to Chris's explanation" postChris Peterson wrote:Every telescope produces a diffraction pattern that is determined by its aperture characteristics- diameter, shape, and the size and shape of any occluding elements. A four-vane spider produces four spikes; a three-vane spider produces six spikes (each vane produces a pair; in the case of four vanes, spikes overlap); an eight-element iris produces eight spikes; an unobstructed circular aperture produces rings.Tszabeau wrote:Since the spikes are not photographic artifacts but diffractions of mirror supports, does it follow that each telescope has its' own signature spike? Can the spikes be compensated or countered out of an image with software or optical means, based on the known structure of the mirror supports, like atmospheric shimmering is compensated for in earth-bound scopes?
In principle, you could use deconvolution to reduce the spikes. However, that sort of reverse filtering typically has no closed solution (filters destroy information), and anything you do to reduce the spikes is likely to lead to new artifacts. Best to leave them. Indeed, some people add them digitally, or put crosshairs across their otherwise unobstructed telescope aperture in order to create them optically. Go figure!
Sometimes you need to subtract the star's point spread function (not just the diffraction spikes) reveals otherwise invisible things... recent example here
http://hubblesite.org/newscenter/archiv ... k/2014/16/
Just call me "geck" because "zilla" is like a last name.
- LocalColor
- Science Officer
- Posts: 266
- Joined: Sat Mar 31, 2012 9:11 pm
- Location: Central Idaho, USA
- Contact:
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
The "candy dish" description tickled my fancy. Wonderful image!
Its like viewing a kindergarten graduation class photo.
Its like viewing a kindergarten graduation class photo.
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
you are correct, I'm guessing: they do not relative to another "inside" observer. But they do absolutely, i presume, to an outside observer, as does everything if space/time is expanding. Of course the only outside observer is God et al.....neufer wrote:tomatoherd wrote: Galaxies DO NOT grow bigger with time due to the expansion of the universe.
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
I love astronomy, but am not an astronomer. Looking at this amazing image just makes me wonder and question so many things and that truly is exhilirating. Our children need this kind of education in school, so their mind can get used to frontiers without limits.
- Indigo_Sunrise
- Science Officer
- Posts: 440
- Joined: Fri Jul 15, 2005 1:40 pm
- Location: Md
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
Ann wrote:It is the same field, but the earlier picture was made without any ultraviolet filters. You can find the B, R and several I's (infrared filters) image here.
Ann
Thanks, Ann. I missed the differences in the filters used.
Forget the box, just get outside.
- Chris Peterson
- Abominable Snowman
- Posts: 18599
- Joined: Wed Jan 31, 2007 11:13 pm
- Location: Guffey, Colorado, USA
- Contact:
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
No. The expansion of spacetime is not uniform. Gravity easily overpowers expansion. Regions with strong gravitational fields don't expand. That includes galaxies. Spacetime is expanding around them, not through them.tomatoherd wrote:you are correct, I'm guessing: they do not relative to another "inside" observer. But they do absolutely, i presume, to an outside observer, as does everything if space/time is expanding. Of course the only outside observer is God et al.....
Chris
*****************************************
Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com
*****************************************
Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
Hubba Hubba Hubble !
- neufer
- Vacationer at Tralfamadore
- Posts: 18805
- Joined: Mon Jan 21, 2008 1:57 pm
- Location: Alexandria, Virginia
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
I like to think of normal expansion as analogous to being kinetically shot out of a cannon.Chris Peterson wrote:No. The expansion of spacetime is not uniform. Gravity easily overpowers expansion. Regions with strong gravitational fields don't expand. That includes galaxies. Spacetime is expanding around them, not through them.tomatoherd wrote:you are correct, I'm guessing: they do not relative to another "inside" observer. But they do absolutely, i presume, to an outside observer, as does everything if space/time is expanding. Of course the only outside observer is God et al.....neufer wrote:
Galaxies grow bigger with time from absorbing/assimilating more gas and other galaxies.
Galaxies DO NOT grow bigger with time due to the expansion of the universe.
However...there are possibly other more dynamic forms of expansion:
http://en.wikipedia.org/wiki/The_big_rip wrote:<<The Big Rip is a cosmological hypothesis first published in 2003, about the ultimate fate of the universe, in which the matter of the universe, from stars and galaxies to atoms and subatomic particles, is progressively torn apart by the expansion of the universe at a certain time in the future. According to the hypothesis, the scale factor of the universe and with it all distances in the universe will become infinite at a finite time in the future. It is important to note that the possibility of sudden singularities and crunch or rip singularities at late times occur only for hypothetical matter with implausible physical properties.
The hypothesis relies crucially on the type of dark energy in the universe. The key value is the equation of state parameter w, the ratio between the dark energy pressure and its energy density. At w < −1, the universe will eventually be pulled apart. Such energy is called phantom energy, an extreme form of quintessence.
A universe dominated by phantom energy expands at an ever-increasing rate. However, this implies that the size of the observable universe is continually shrinking; the distance to the edge of the observable universe which is moving away at the speed of light from any point moves ever closer. When the size of the observable universe becomes smaller than any particular structure, no interaction by any of the fundamental forces (gravitational, electromagnetic, weak, or strong) can occur between the most remote parts of the structure. When these interactions become impossible, the structure is "ripped apart". The model implies that after a finite time there will be a final singularity, called the "Big Rip", in which all distances diverge to infinite values.
The authors of this hypothesis, led by Robert Caldwell of Dartmouth College, calculate the time from the present to the end of the universe as we know it for this form of energy to be
where w is defined above, H0 is Hubble's constant and Ωm is the present value of the density of all the matter in the universe.
In their paper, the authors consider an example with w = −1.5, H0 = 70 km/s/Mpc and Ωm = 0.3, in which case the end of the universe is approximately 22 billion years from the present. This is not considered a prediction, but a hypothetical example. The authors note that evidence indicates w to be very close to −1 in our universe, which makes w the dominating term in the equation. The closer that the quantity (1 + w) is to zero, the closer the denominator is to zero and the further the Big Rip is in the future. If w were exactly equal to −1, the Big Rip could not happen, regardless of the values of H0 or Ωm.
In their scenario for w = −1.5, the galaxies would first be separated from each other. About 60 million years before the end, gravity would be too weak to hold the Milky Way and other individual galaxies together. Approximately three months before the end, the Solar System (or systems similar to our own at this time, as the fate of the Solar System 7.5 billion years in the future is questionable) would be gravitationally unbound. In the last minutes, stars and planets would be torn apart, and an instant before the end, atoms would be destroyed.
According to the latest cosmological data available, the uncertainties are still too large to discriminate among the three cases w < −1, w = −1, and w > −1.>>
Art Neuendorffer
-
- Asternaut
- Posts: 8
- Joined: Thu Sep 25, 2008 7:33 pm
- Location: Bay Area
- Contact:
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
Am I missing something, or do I see hundreds of fully formed and evolved galaxies in the image? Wouldn't simple common sense suggest that entire galaxies would take more than a few hundred million years to evolve to present forms? The galaxies pictured are not unlike galaxies within our own nearby galactic neighborhood. Pictured you find typical spiral galaxies and the much older, evolved "elliptical" (spherical) galaxies. We know from studying the nearby elliptical galaxies that they typically contain the oldest stars. The fact that they have very little interstellar dust suggests that all that material we see in spiral galaxies has been "digested" and rarefied to form more orderly, older stellar systems, and to evolve from a spiral/flat form to a spherical form.
I feel it is only a matter of time before the Big Bang theory is discredited -- or at least gets pushed way back ... I feel the Universe must be far, far older than few tens of billions of years -- and is perhaps trillions of years old -- maybe more ...
I feel it is only a matter of time before the Big Bang theory is discredited -- or at least gets pushed way back ... I feel the Universe must be far, far older than few tens of billions of years -- and is perhaps trillions of years old -- maybe more ...
- geckzilla
- Ocular Digitator
- Posts: 9180
- Joined: Wed Sep 12, 2007 12:42 pm
- Location: Modesto, CA
- Contact:
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
You are missing something. This picture only adds to the pile of evidence which collectively adds up to form the Big Bang Theory.DavidACaruso wrote:Am I missing something, or do I see hundreds of fully formed and evolved galaxies in the image?
Just call me "geck" because "zilla" is like a last name.
- Ron-Astro Pharmacist
- Resistored Fizzacist
- Posts: 889
- Joined: Thu Jan 03, 2013 10:34 pm
- AKA: Fred
- Location: Idaho USA
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
Shoot!!! There goes my theory about gravity just being that the Earth is just expanding faster than metomatoherd wrote:you are correct, I'm guessing: they do not relative to another "inside" observer. But they do absolutely, i presume, to an outside observer, as does everything if space/time is expanding. Of course the only outside observer is God et al.....neufer wrote:tomatoherd wrote: Galaxies DO NOT grow bigger with time due to the expansion of the universe.
Back to the drawing board.
Make Mars not Wars
- neufer
- Vacationer at Tralfamadore
- Posts: 18805
- Joined: Mon Jan 21, 2008 1:57 pm
- Location: Alexandria, Virginia
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
You see hundreds of fully formed and evolved galaxies of ages around 6 to 9 Gyr.DavidACaruso wrote:
Am I missing something, or do I see hundreds of fully formed and evolved galaxies in the image?
Art Neuendorffer
- Chris Peterson
- Abominable Snowman
- Posts: 18599
- Joined: Wed Jan 31, 2007 11:13 pm
- Location: Guffey, Colorado, USA
- Contact:
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
There is a defect in your common sense. In fact, galaxies formed very quickly. Just a few hundred million years. And the evolutionary state of a galaxy can be less than obvious. These are galaxies seen early in their life. That doesn't mean they don't look all that different from more evolved galaxies.DavidACaruso wrote:Am I missing something, or do I see hundreds of fully formed and evolved galaxies in the image? Wouldn't simple common sense suggest that entire galaxies would take more than a few hundred million years to evolve to present forms?
Chris
*****************************************
Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com
*****************************************
Chris L Peterson
Cloudbait Observatory
https://www.cloudbait.com
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
NGC3314- Thank you very much for such a nice explanation. I should have done the math or looked up redshifts and distances to be sure. Yes, 9 GLY lookback is redshift 1.46 so ultra-high energy photons would still be in the UV spectrum at that distance. I like the detail in your explanation.NGC3314 wrote:The hallmark of star-forming regions (as long as they're not too dust-enshrouded) is intense radiation in the emitted UV part of the spectrum, so strongly that images are more and more sensitive to the level of star formation at shorter UV wavelengths until one reaches the Lyman limit where radiation has enough energy to ionize hydrogen (912 Angstroms, 91.2 nm, 13.6 eV photon energy). So UV data improve our census of cosmic star formation up to redshifts where the filter samples the "missing" radiation absorbed by gas in each galaxy. The new data use several near-UV filters down to 2250 A wavelength, so they show star formation to a redshift (2250-912)/912=1.46 (with a soft cutoff because of the width of the filter transmission). That would be a lookback time of about 9 Gyr.Krell1956 wrote:I would like to know more detail about the UV data and what it's adding to the Ultra Deep Field image. The APOD post says the UV data helped study star formation in galaxies 5 to 10 billion LY away. I haven't done the math on it, but I would think that even energetic gamma rays associated with star formation (if they ARE associated with star formation- doesn't seem energetic enough) would have red shifted to longer wavelengths than UV. Is there something I'm not reading right? Energetic black holes and star formation....?
To show how sensitive the UV is to recent star formation, this plot compares the spectra of bursts of star formation at billion-year intervals (top to bottom). The intensity scale is logarithmic, stressing how fast the population of stars both fades and reddens with time. (Taken from this class page)
One reason these data were taken now is that the sensitivity of the UV instruments on Hubble is declining noticeably year to year (which pretty much all UV detectors do in space, due to damage from particle impacts and accumulating contaminants if anything else in the system outgases), so for the last couple of years Hubble has been scheduled under a "UV Initiative", giving extra weight to UV observations while they're still easy.
- DavidLeodis
- Perceptatron
- Posts: 1169
- Joined: Mon May 01, 2006 1:00 pm
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
The "Big Bang" link in the explanation brought up the APOD of March 23 2006 ('Inflating the Universe'). I was amused in the explanation to that APOD to read "Schematically, this diagram traces the 13.7 billion year (plus a trillionth of a second ...) history of the Universe". That trillionth of a second was clearly a monumental moment in that history!
- neufer
- Vacationer at Tralfamadore
- Posts: 18805
- Joined: Mon Jan 21, 2008 1:57 pm
- Location: Alexandria, Virginia
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
Should have been 13.7 billion year (plus a trillionth of a trillionth of a trillionth of a second).DavidLeodis wrote:
The "Big Bang" link in the explanation brought up the APOD of March 23 2006 ('Inflating the Universe'). I was amused in the explanation to that APOD to read "Schematically, this diagram traces the 13.7 billion year (plus a trillionth of a second ...) history of the Universe". That trillionth of a second was clearly a monumental moment in that history!
http://en.wikipedia.org/wiki/Rubik%27s_Cube#Permutations wrote:
<<The original (3×3×3) Rubik's Cube has approximately 43 quintillion possible arrangements. The puzzle is often advertised as having only "billions" of positions, as the larger numbers are unfamiliar to many.>>
Art Neuendorffer
- DavidLeodis
- Perceptatron
- Posts: 1169
- Joined: Mon May 01, 2006 1:00 pm
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
The APOD image is fascinating. It is however a cropped version of the full image that is brought up through the "The image itself" link, or when clicking on the APOD. I would have preferred the APOD to have not been a cropped version as I think not much detail would have been lost.
PS. Currently at least (on my Internet browser) the 2 STScI links in the credit bring up a webpage with Japanese or Chinese text. I wonder if that is intended or an error?
PS. Currently at least (on my Internet browser) the 2 STScI links in the credit bring up a webpage with Japanese or Chinese text. I wonder if that is intended or an error?
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
And this is just one tiny sliver of the heavens!
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
Speaking of diffraction spikes, could we do without lenses and mirrors if we could make a flat CCD like detector that captures all the necessary electromagnetic information such as intensity, direction, wavelength, etc? Doesn't all the information that reaches the Hubble telescope pass through an imaginary flat circle?
Thanks,
Steven
Thanks,
Steven
Re: APOD: Hubble Ultra Deep Field 2014 (2014 Jun 05)
Diffraction spikes could be eliminated by suspending the secondary mirror in the center of a sheet of synthetic sapphire. Like what is used for scratch resistant watch lenses. You could even shape the sapphire as a one piece clear mirror support/mirror and coat the center section to create the secondary sapphire mirror