If this is not a Bernoulli spiral, what is it then?

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    Bernoulli Spiral
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The discussion revolves around identifying a spiral design on a tie that the original poster, Arthur, believes is not a Bernoulli spiral. Participants suggest various possibilities, including the Golden Spiral and Equiangular Spiral, but Arthur dismisses these due to discrepancies in the design's steepness and embroidery accuracy. The Archimedean Spiral is proposed as a more fitting alternative, particularly because it starts at the pole, unlike the equiangular spiral. Arthur appreciates the suggestions and acknowledges the help received in narrowing down the options. The conversation highlights the challenge of accurately identifying spirals in artistic representations.
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I met this old nerd wearing a tie with a certain spiral, which does not look like a Bernoulli spiral to me. He actually told me, what it was, but I seem to have lost the note and time made me forget it. I wouldn´t be able to describe properly, so I have a photograph of the tie on my flickr:
http://flic.kr/p/b1Dt6P

Anyone happens to know, what it is?

Much obliged,
Arthur
 
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Welcome to PF, Arthur. I'm afraid that I can't help you out on this.
It's a damned cool design, though. If it turns out to mean something that I like, I wouldn't mind getting it as a tatoo.
 
Thanks for the comments! I just don´t really think it´s the Golden or Equiangular Spiral as the angle to the rightmost slope to the x-axis seems a bit too steep for it to truly match.
Sure, it´s an embroidery and geometric accuracy cannot be fully expected, but I remember the guy telling another story and one could embroider the equiangular spiral much more clear!
So I´m still thankful for more suggestions.
By the way, here is the guy, who came with it:
http://flic.kr/p/b1DsCc
This guy makes it look even cooler on a tie, than as a tattoo...
 
Looks like spiral of Archimedes, in polar coordinates:

r = a θ , θ starting at 0

but the logo appears rotated left 90°, which would be:

r = a (θ - π/2), θ starting at π/2

For the rotated image, imagine rotating the image from the wiki article 90° to the left (tilt your head 90° to the right) and note the first 360° of the spiral would look like the logo. Link to the wiki artilcle.

http://en.wikipedia.org/wiki/Archimedean_spiral
 
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It really does look more like the archimedean spiral, than any other. In all drawings I found, the archimedean spiral starts at the pole, while the equiangular spiral never reaches the pole. In the logo on the tie, the spiral quite clearly starts at 0.
Thanks a lot rcgldr and the other for help!

Happy New Year!
 

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