M65 and M66 - GALEX image of the day

[madbadgalaxyman (Robert)]

Here is a really "hot" (both metaphorically speaking, and in actual physical measurements....) image of M66 and M65 in the Far ultraviolet and Near ultraviolet.
(GALEX satellite observation)

The spiral arms of these galaxies, which are so difficult to characterize from observations at visible wavelengths, are here plainly outlined in blue and white, which traces far-ultraviolet light coming from young and luminous stars.

This is a most instructive image, in terms of deciphering the morphology of these two galaxies.
For instance there is some very odd detail in the shorter and broader of the two spiral arms of M66!

cheers, madbadgalaxyman



P.S.
Mr V.Bad Galaxy Man has had an ongoing argument (with himself!!!) regarding whether or not M66 is meaningfully perturbed by one or more nearby galaxies.....I think the GALEX image supports the case that there is at least a mild perturbation.
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Bad Galaxy Man's question of the day:

Is there anything at all that is unusual about M65 ???

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Added, in later edit.
A larger FUV+NUV image of M66, downloaded from GalexView:



The brightest FUV knot may be a star cloud, or it may be something more unusual; it is unusual to find a really bright FUV and blue feature at this position in a non-dwarf barred spiral galaxy.
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[madbadgalaxyman (Robert)]

Here is the 7.91micron image (infrared image) of M66 taken by the Spitzer Telescope with its Irac instrument, showing the nature of the pronounced arm asymmetry in M66:



(this image is displayed at a linear scale)
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Here is the Far-ultraviolet channel from the GALEX image of M66:



(image displayed at a logarithmic scale)

Note the single Really Unusual and Very Large and very luminous Far-ultraviolet emitting Knot or Radial Feature!!
"Curioser and Curioser, said the white rabbit"

[allan gould]

The M65 image appears to show one massive arm which curls 1 and 1/2 times round the galaxy center while it's second arm is a short stubby thing.
Not noticed this before.

[madbadgalaxyman (Robert)]

A good observation, Allan !

I have been trying to find something unusual about M65 for some years, and till this UV image from GALEX came out, the most unusual thing about this galaxy seemed to be its utter normality!

In essence, I do agree with you. The short spiral arm is so short that M65 might be thought of as a one-armed spiral galaxy, but this conclusion is subject to some qualifications:

To confirm the arm pattern, one really needs multi-wavelength imaging data and to have a close look at the FUV channel only, as the GALEX image in my Post actually superposes two bandpasses: Far-ultraviolet + Near-ultraviolet.
[ I might have a play with the FUV imaging data, which is usually available from the NED (extragalactic database) ]

The apparent (as is observed in the two-dimensional UV image) arm asymmetry in M65 is very very pronounced in the ultraviolet regime, though one has to take into consideration the fact that any internal extinction of the Ultraviolet light emitted by a galaxy is going to be very high due to the severe effect of interstellar dust on short wavelength light.
So, one has to be on the alert for the possibility that the arm pattern observed in a far-ultraviolet image of a galaxy may not actually be the real arm pattern; the actual arm pattern may be falsified by the presence of severe extinction from dust within a galaxy.

The Far-ultraviolet channel of the GALEX telescope/satellite is extraordinarily sensitive to the presence of very recent Star Formation and it very easily detects light from the consequent UV-luminous OB stars that are so common in the spiral arms of galaxies. Therefore, the M65 spiral arm pattern is much more clearly seen in the FUV than in the optical regime, with the qualifications that:
- old quiescent spiral arms will not be detected in the ultraviolet,
- some of the UV-bright spiral arms could very easily be hidden by dust clouds.

Even better (than ultraviolet light) for the precise delineation of Spiral Arm Patterns is the low-extinction near-infrared regime…… but I have - thus far - never seen a really sharp infrared image of M65.

The asymmetry of the two major arms could be consistent with some perturbation of M65 by an external galaxy.

One-armed spiral modes (or the presence of strong arm asymmetry between the two principal spiral arms of a galaxy) can provide supportive evidence for the idea that a galaxy has been perturbed by its neighbours, as I have argued before in IIS forums. (e.g. NGC 4027, the LMC, M96, NGC 2442, NGC 4725 , etc.)

In the case of the nearby M66, the level of arm asymmetry has been found to be large, in many & various wavelength regimes, and this fact has been used to provide some support for the idea that M66 has interacted with another galaxy…. perhaps with NGC 3628 to which it is linked by a bridge of neutral atomic hydrogen gas. (there is an outermost extremely faint arm in M66 which has no counterpart on the other side of the galaxy!)

cheers, Robert

[allan gould]

Robert, I agree with you and I could not find a decent image of M65 in the infra-red portion of the spectrum.

[madbadgalaxyman (Robert)]

Conceivably, M65 is one-armed also at visible wavelengths, but it takes a really good image to show it.
I will present an analysis of some optical images of M65, if I can get a round tuit. (I have actually been obsessing about M66 for most of the day!)

madbadgalaxyman

[allan gould]

Robert
I combined the Galex image along side an image I did of M65 and M66 recently.
Its easy to compare the two images and its fairly obvious to me that indeed from the visual image 0f M65 you can trace out the long and short arms and that M66 could be almost classified as a single arm galaxy.
Also in my original there is a faint arm of M66 which "curls"around the star at the top of the galaxy from right to left ie clockwise. I believe its shown clearly in very deep images.

[allan gould]

Actually on a deeper look at M66 I think the long single arm is incorrect and that the very deep dust lane on the LHS of M66 is still blocking a large percentage of light to the Galex instrument and that there is just a ring of star formation around the center of the galaxy and that there are just two short stubby arms coming of it - one at the top and one at the bottom.
Thoughts?

[madbadgalaxyman (Robert)]

Allan,
Unfortunately, I am still noncomittal about the exact arm structure in M65, as I am too busy analyzing other galaxies...... In fact, I spent most of the last two days thinking about M66 (!!), a galaxy in which the morphology is consistent with, though perhaps not proving, a gravitational interaction with another galaxy.

You are absolutely right about the existence of a very faint anomalous outermost arm in M66 (which can be seen easily in Greg Bradley's fine image at pbase.com). This arm (or arms) makes the outer isophotes of this galaxy to be very unusual in shape!

Here is an image of the Very Faint outer arm(s) or tidal feature(s) of M66:



Also, I am reasonably certain (as I do have access to lot of multi-wavelength imaging material) that the bright portion of M66 does have considerable arm asymmetry, when we consider the difference between the two bright Spiral Arms;

the shorter of its two bright Spiral Arms looks like a stub, and, more importantly, this very short Spiral Arm still looks short in NIR imaging (which is a low-extinction regime that traces the mass-dominant old stellar popuation) and it still looks short in two-dimensional image maps of the CO(1-0) total intensity and CO(2-1) total intensity (both of which trace the dense & cold Molecular Hydrogen Gas that is concentrated by the density wave in a spiral arm)

Here is the (infrared) composite of J+H+K band images from the 2MASS (survey):



Isn't infrared great! As a famous lady infrared astronomer once said: "I don't care if it's plastic, as long as it's in the infrared and I can see it!"

However, one must be careful not to make too much of arm asymmetries seen in barred spirals, as moderately strong arm asymmetry is actually normal for a barred spiral galaxy.
Nonetheless, the level of arm asymmetry (of the two bright arms) observed in M66 is modestly outside of the normal range that is found in unperturbed non-dwarf spiral galaxies.
HOWEVER, My own (developing) interpretation of M66 is that some of the arm material is actually lifted out of the principal plane of this galaxy by gravitational perturbation! Whether this is true or not, it is a fact that a broadened and "smeared" appearance of the shorter of the two arms in a Barred Spiral Galaxy is usually associated with gravitational perturbation, as I well know from comparing very numerous images of barred spirals.

cheers, the v.bad galaxy man

P.S. In galaxies, the distinction between a ring structure and a ring structure that is composed of two spiral arms that closely overlap, is somewhat technical (in fact, the physical cause can be the same!). Professor Ron Buta studied this phenomenon in his "Catalog of Southern Ringed Galaxies"(known as the CSRG) and subsequent work.
Further, the ring morphologies observed in the galaxy population are comprehensively described and classified in his "de Vaucouleurs Atlas of Galaxies, which is an essential textbook about galaxy classification.

Madbadgalaxyman's opinionated comment of the day:
It is extremely hard (and a non-trivial task) to derive the three-dimensional structure of a galaxy from the appearance of its two-dimensional image. In spiral galaxies, the problem is made fiendishly difficult, because the naive initial assumptions of planarity and circularity do not apply to real disk galaxies seen in the real universe.