Starship Asterisk*

AVAO wrote: ↑Tue Sep 17, 2024 10:22 pm

sc02492 wrote: ↑Tue Sep 17, 2024 9:57 am

Ann wrote: ↑Tue Sep 17, 2024 6:02 am What I find interesting about this image is that we can see large-scale structures in the shape of long twisted "tubes", and then there is a lot of small-scale turbulence inside those tubes.

What keeps the small-scale turbulence contained inside those long tubes?

Ann

It's important to distinguish between true turbulence, which is a dynamic process involving chaotic changes in a fluid medium like liquid or gas, versus the illusion of turbulence created by the "static" signals used to create the image. I've become very fond of the Hubble Palette in the past several years because it creates interesting contrast changes within the image, when SII regions (red) merge into HII regions (green) to create yellow, for instance. When you actually process these images and see them blossom right before your eyes on the computer screen, it's really quite amazing and aesthetically pleasing. However, I have always interpreted this appearance as a static phenomenon representing the mapping of various regions of emission (SII, HII, OIII), as opposed to having anything to do with "turbulence".

Thank you for your very exciting and informative input. But I think there is a misunderstanding here. Ann tried to describe his visual perception. However, speaking of turbulence is probably a somewhat unfortunate description. Normally, this is used to characterise chaotic substructures. In this case, it probably means fragmented substructures within the very clearly visible helical main filament structures. In other wavelengths, such as in the IR, other characteristics emerge.

Click to view full size image 1 or image 2

Original data: NASA/ESA DSS2/HERSCHEL

Click to view full size image

Original data: NASA/ESA SST/ALLWISE

sc02492 wrote: ↑Tue Sep 17, 2024 9:57 am

Ann wrote: ↑Tue Sep 17, 2024 6:02 am What I find interesting about this image is that we can see large-scale structures in the shape of long twisted "tubes", and then there is a lot of small-scale turbulence inside those tubes.

What keeps the small-scale turbulence contained inside those long tubes?

Ann

It's important to distinguish between true turbulence, which is a dynamic process involving chaotic changes in a fluid medium like liquid or gas, versus the illusion of turbulence created by the "static" signals used to create the image. I've become very fond of the Hubble Palette in the past several years because it creates interesting contrast changes within the image, when SII regions (red) merge into HII regions (green) to create yellow, for instance. When you actually process these images and see them blossom right before your eyes on the computer screen, it's really quite amazing and aesthetically pleasing. However, I have always interpreted this appearance as a static phenomenon representing the mapping of various regions of emission (SII, HII, OIII), as opposed to having anything to do with "turbulence".

Ann wrote: ↑Tue Sep 17, 2024 6:02 am What I find interesting about this image is that we can see large-scale structures in the shape of long twisted "tubes", and then there is a lot of small-scale turbulence inside those tubes.

What keeps the small-scale turbulence contained inside those long tubes?

Ann