Starship Asterisk*

paulhummerman wrote: ↑Tue May 09, 2023 11:24 am What's the time-scale of this animation? Visible wavelengths?

APOD Robot wrote:

Plentiful in M15, RR Lyrae stars are evolved pulsating variable stars whose brightness and pulsation period, typically less than a day, are related.

Chris Peterson wrote: ↑Fri Mar 29, 2019 8:37 pm

Nitpicker wrote: ↑Fri Mar 29, 2019 7:58 pm I don't think it would require a much bigger animation to give a good rough impression of all the periods.

The problem is doing it as a GIF. Not very efficient for that type of animation.

Nitpicker wrote: ↑Fri Mar 29, 2019 7:58 pm I don't think it would require a much bigger animation to give a good rough impression of all the periods.

Cousin Ricky wrote: ↑Fri Mar 29, 2019 4:32 pm

Nitpicker wrote: ↑Fri Mar 29, 2019 2:11 am I would assume that Gaia recorded enough samples from each RR Lyrae star, to determine the average period of each. So, I suppose they could have produced a more realistic gif, but for what purpose, I don't know. An ordinary luminosity vs time graph, for each variable star, would convey that more clearly to most people. But the APOD is prettier.

You’re talking about synchronizing dozens of different periods such that they can repeat in a loop. That would require an impressive least common multiple, and a truly massive GIF. An idea that wouldn’t break the memory bank would be to stagger the phases while keeping the same period for each star. It wouldn’t be more realistic, but it would look more realistic.

Nitpicker wrote: ↑Fri Mar 29, 2019 2:11 am I would assume that Gaia recorded enough samples from each RR Lyrae star, to determine the average period of each. So, I suppose they could have produced a more realistic gif, but for what purpose, I don't know. An ordinary luminosity vs time graph, for each variable star, would convey that more clearly to most people. But the APOD is prettier.

Cousin Ricky wrote: ↑Thu Mar 28, 2019 8:30 pm

BDanielMayfield wrote: ↑Thu Mar 28, 2019 7:17 pm

pferkul wrote: ↑Thu Mar 28, 2019 2:39 pm Why do the pulsations appear to be somewhat in phase? Here is a plot of average image brightness for each of the 10 frames.

Nice data analysis pferkul. There is no way such a smooth brightness curve could be natural. These variable stars wouldn't be in phase with each other, their brightness peaks would be randomly distributed, and their periods, quoting Wikipedia on RR Lyrae stars, are "typically less than one day, sometimes ranging down to seven hours."

So the creators of this simulation must have applied a simple sine function with the same period for each of these variable stars.

This was plainly obvious to me just by looking at the image.

BDanielMayfield wrote: ↑Thu Mar 28, 2019 7:17 pm

pferkul wrote: ↑Thu Mar 28, 2019 2:39 pm Why do the pulsations appear to be somewhat in phase? Here is a plot of average image brightness for each of the 10 frames.

Nice data analysis pferkul. There is no way such a smooth brightness curve could be natural. These variable stars wouldn't be in phase with each other, their brightness peaks would be randomly distributed, and their periods, quoting Wikipedia on RR Lyrae stars, are "typically less than one day, sometimes ranging down to seven hours."

So the creators of this simulation must have applied a simple sine function with the same period for each of these variable stars.

pferkul wrote: ↑Thu Mar 28, 2019 2:39 pm Why do the pulsations appear to be somewhat in phase? Here is a plot of average image brightness for each of the 10 frames.

Ann wrote: ↑Thu Mar 28, 2019 5:25 pm
Globular clusters are probably not very good incubators for advanced life forms.

• Which is actually good since truly advanced life forms would have probably already figured out ways to block robocalls:

https://en.wikipedia.org/wiki/Arecibo_message#Planets wrote:
<<The Arecibo message is a 1974 interstellar radio message carrying basic information about humanity and Earth sent to globular star cluster M13 in the hope that extraterrestrial intelligence might receive and decipher it. The message was aimed at the current location of M13 some 25,000 light years away because M13 was a large and close collection of stars that was available in the sky during a ceremony to mark the remodeling of the Arecibo radio telescope in Puerto Rico on 16 November 1974. The message consisted of 1,679 binary digits, approximately 210 bytes, transmitted at a frequency of 2,380 MHz and modulated by shifting the frequency by 10 Hz, with a power of 450 kW. The "ones" and "zeros" were transmitted by frequency shifting at the rate of 10 bits per second. The total broadcast was less than three minutes.>>

pferkul wrote: ↑Thu Mar 28, 2019 2:39 pm Why do the pulsations appear to be somewhat in phase? Here is a plot of average image brightness for each of the 10 frames.

orin stepanek wrote: ↑Thu Mar 28, 2019 12:14 pm Could planets be plentiful in globular clusters?

pferkul wrote: ↑Thu Mar 28, 2019 2:39 pm
Why do the pulsations appear to be somewhat in phase?

https://en.wikipedia.org/wiki/Phase_synchronization wrote:
<<Phase synchronization is the process by which two or more cyclic signals tend to oscillate with a repeating sequence of relative phase angles. One example of phase synchronization of multiple oscillators can be seen in the behavior of Southeast Asian fireflies. At dusk, the flies begin to flash periodically with random phases and a gaussian distribution of native frequencies. As night falls, the flies, sensitive to one another's behavior, begin to synchronize their flashing. After some time all the fireflies within a given tree (or even larger area) will begin to flash simultaneously in a burst.>>

orin stepanek wrote: ↑Thu Mar 28, 2019 12:14 pm Could planets be plentiful in globular clusters?