Starship Asterisk*

Ann wrote:

Fred the Cat wrote:

-- is acting like a choppy gravitational lens. A perhaps even odder thing is that by watching these background quasars flicker, you can estimate the expansion rate of the universe.

I don't suppose the universal clock is a Timex rather than a Rolex and the amount time expands depends on your state of mind.

Wait a minute - my watch says La La Land

You must have been lensed into a pocket of alternative time!

Beam me up, Scotty!

Ann

Gregrrr wrote:Is it possible that different parts of the universe expand at different rates?

rstevenson wrote:

Ann wrote:...
(And I had to go and get that darn wine glass all over again.)

And I had to empy mine again.
But the distortions in the light get easier to see the more often I empty the glass -- I think.

Ann wrote:...
(And I had to go and get that darn wine glass all over again.)
Ann

neufer wrote:

Ann wrote:
Wow, Art, it worked! (Sort of) The only flashlight I've got is a pretty poor point source, since it holds seven little LED lights set in a cluster. (And a wine glass, me? Okay, I found one...)

I couldn't replicate the effect of discrete spots similar to the effects seen in the APOD, but I got a VERY uneven ring with gaps in it. Good enough! I still don't know why the Einstein Cross works the way it does, but I really believe in it now!

Having the wine glass stem cocked slightly to the side not only gets the bowl out of the way but it emulates the elliptical shape of the galactic field.

neufer wrote:Having the wine glass stem cocked slightly to the side not only gets the bowl out of the way but it emulates the elliptical shape of the galactic field.

Ann wrote:
Wow, Art, it worked! (Sort of) The only flashlight I've got is a pretty poor point source, since it holds seven little LED lights set in a cluster. (And a wine glass, me? Okay, I found one...)

I couldn't replicate the effect of discrete spots similar to the effects seen in the APOD, but I got a VERY uneven ring with gaps in it. Good enough! I still don't know why the Einstein Cross works the way it does, but I really believe in it now!

neufer wrote:

Ann wrote:
I would have liked to get a non-mathematical explanation as to how the quasar could be split into four discrete images rather than a ring.

1) Baffle down a flashlight to make a 'point source' of light at the other end of a dark room.

2) Put the base of a wine glass stem (cocked slightly to the side) between your eye and the 'point source.'

3) Move the stem base around until you see 3 adjacent spots of light.

4) Wiggle the stem base to see the middle spot alternately merge with & separate from the spots to its left & right.

5) You might also be able to see a more distant fourth spot, but the wine glass stem usually gets in the way.

Atabakzadeh wrote:
Why there are exactly four symmetric repeated image of this quasar around that central galaxy (acts as a gravity lens)?
If that galaxy acts as a gravity lens, then the composed pyramid image of that quasar behind it, should be something like a "Ring".
The light rays move in all directions, not only in Four directions!
Maybe this phenomena depends on the shape of central galaxy. Does it?

Ann wrote:
I would have liked to get a non-mathematical explanation as to how the quasar could be split into four discrete images rather than a ring.

Wikipedia wrote:
The foreground lens is a galaxy. When the background source is a quasar or resolved jet, the strong lensed images are usually point-like multiple images; When the background source is a galaxy or extended jet emission, the strong lensed images can be arcs or rings.

Fred the Cat wrote:

-- is acting like a choppy gravitational lens. A perhaps even odder thing is that by watching these background quasars flicker, you can estimate the expansion rate of the universe.

I don't suppose the universal clock is a Timex rather than a Rolex and the amount time expands depends on your state of mind.

Wait a minute - my watch says La La Land

distefanom wrote:Ok, the images have different path length going around that galaxy from the quasar source.
But taking into account the distance we, the observers have from that galaxy and the quasar source, we can imagine an EXTREMELY ELONGATED isosceles-like triangle...

One could say that even the non-perfect alignment of the quasar-galaxy-earth, the image appearing around the galaxy should be the same.... so we should have an Einstein ring, instead of 4 dots...

Also the "flickering" should be essentially in sync with respect of each image... This is why I written "overlap" in my previous post....
and here the mistery arose: why we have 4 images instead of an (also maybe distorted) arc???

-- is acting like a choppy gravitational lens. A perhaps even odder thing is that by watching these background quasars flicker, you can estimate the expansion rate of the universe.

Chris Peterson wrote:

Mario59 wrote:
But about the flickering? What means exactly?
Do they refer to a sudden bright luminosity change of the four images, reaches us in slightly different times?
In any case, if the surce is the very same, the brightness curve should *ALWAYS* overlap perfectly.

I'm not sure of the details of the flickering mentioned here, but there is no reason each brightness curve should align, because the total distance the light travels over each leg isn't the same. There was a recent APOD detailing a distant supernova observed via a gravitationally lensed image, with the intensity spike occurring at different times in different lensed components.

https://en.wikipedia.org/wiki/Quasar#Emission_generation wrote:

Click to play embedded YouTube video.

<<A quasar is a compact region surrounding a supermassive black hole. The region emits enormous amounts of electromagnetic energy as a result of mass from the core of a surrounding galaxy, under the influence of the black hole's gravity, falling onto the black hole's accretion disk. To create a luminosity of 10⁴⁰ watts (the typical brightness of a quasar), a super-massive black hole would have to consume the material equivalent of 10 stars per year. The brightest known quasars devour 1000 solar masses of material every year. The largest known is estimated to consume matter equivalent to 600 Earths per minute. Quasar luminosities can vary considerably over time, depending on their surroundings.>>

• The four images of an Einstein Cross define the base corners of a skewed four cornered pyramid.
  
  The relative timing delays of the four images define the relative diagonal lengths to
  the apex (i.e., us) from which one can determine the distance to the gravitational lens.

https://en.wikipedia.org/wiki/Einstein_Cross wrote:

[b][color=#0000FF][size=200]Huchra's Lens in Pegasus[/size][/color][/b]

---

<<The Einstein Cross (Q2237+030 or QSO 2237+0305) is a gravitational lensed quasar that sits directly behind ZW 2237+030, Huchra's Lens. Four images of the same distant quasar (plus one in the centre, too dim to see) appear around a foreground galaxy due to strong gravitational lensing. While gravitationally lensed light sources are often shaped into an Einstein ring, due to elongated shape of the lensing galaxy and the quasar being off-centre, the images form a peculiar cross-shape instead.

The quasar's redshift indicates that it is located about 8 billion light years from Earth, while the lensing galaxy is at a distance of 400 million light years. The apparent dimensions of the entire foreground galaxy are 0.87 × 0.34 arcminutes, while the apparent dimension of the cross in its centre accounts for only 1.6x1.6 arcseconds. The individual images are labelled A through D (i.e. QSO 2237+0305 A), the lensing galaxy is sometimes referred to as QSO 2237+0305 G.>>

Mario59 wrote:This is EXACTLY what I was thinking.
It's rather difficult to explain the 4 SINGLE images instead of a ring, if no spectrogram of each of them is known to me.

But about the flickering? What means exactly?
Do they refer to a sudden bright luminosity change of the four images, reaches us in slightly different times?
In any case, if the surce is the very same, the brightness curve should *ALWAYS* overlap perfectly.

tomatoherd wrote:Why is it an Einstein cross instead of an Einstein RING?

Wikipedia wrote:

The Einstein Cross (Q2237+030 or QSO 2237+0305) is a gravitational lensed quasar that sits directly behind ZW 2237+030, Huchra's Lens. Four images of the same distant quasar (plus one in the centre, too dim to see) appear around a foreground galaxy due to strong gravitational lensing.[1][2]

While gravitationally lensed light sources are often shaped into an Einstein ring, due to elongated shape of the lensing galaxy and the quasar being off-centre, the images form a peculiar cross-shape instead.

BDanielMayfield wrote:In it's article on Dark Matter,

Wikipedia wrote:The first robust indications that the mass to light ratio was anything other than unity came from measurements of galaxy rotation curves.

Now it seems that this early reason for suspecting the existence of Dark Matter may have been completely explained away.