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Strange Stars Pulse To the Golden Mean
An anonymous reader sends this excerpt from an article at Quanta Magazine:
What struck John Learned about the blinking of KIC 5520878, a bluish-white star 16,000 light-years away, was how artificial it seemed. Learned, a neutrino physicist at the University of Hawaii, Mnoa, has a pet theory that super-advanced alien civilizations might send messages by tickling stars with neutrino beams, eliciting Morse code-like pulses. "It's the sort of thing tenured senior professors can get away with," he said. The pulsations of KIC 5520878, recorded recently by NASA's Kepler telescope, suggested that the star might be so employed.
A "variable" star, KIC 5520878 brightens and dims in a six-hour cycle, seesawing between cool-and-clear and hot-and-opaque. Overlaying this rhythm is a second, subtler variation of unknown origin; this frequency interplays with the first to make some of the star's pulses brighter than others. In the fluctuations, Learned had identified interesting and, he thought, possibly intelligent sequences, such as prime numbers (which have been floated as a conceivable basis of extraterrestrial communication). He then found hints that the star's pulses were chaotic. But when Learned mentioned his investigations to a colleague, William Ditto, last summer, Ditto was struck by the ratio of the two frequencies driving the star's pulsations. "I said, 'Wait a minute, that's the golden mean.'"
A "variable" star, KIC 5520878 brightens and dims in a six-hour cycle, seesawing between cool-and-clear and hot-and-opaque. Overlaying this rhythm is a second, subtler variation of unknown origin; this frequency interplays with the first to make some of the star's pulses brighter than others. In the fluctuations, Learned had identified interesting and, he thought, possibly intelligent sequences, such as prime numbers (which have been floated as a conceivable basis of extraterrestrial communication). He then found hints that the star's pulses were chaotic. But when Learned mentioned his investigations to a colleague, William Ditto, last summer, Ditto was struck by the ratio of the two frequencies driving the star's pulsations. "I said, 'Wait a minute, that's the golden mean.'"
Whoa, dude. Tenured professor? I dunno, maybe you should aim for something more achievable -- like, an astronaut, or a world-famous basketball star.
I'm only exaggerating a little. :b
The World Wide Web is dying. Soon, we shall have only the Internet.
So what's surprising about it showing up in a different location of the same world?
It shows up in biological systems that are fractal, such as the spiral of a pine cone, or the distance between branches on a tree. But there is nothing (that we know of) that is fractal about a star.
Btw, for an excellent introduction to the Golden Ratio, watch Donald Duck in Mathematics Land.
But there is nothing (that we know of) that is fractal about a star.
Nothing that we know of... yet.
The golden ratio has been observed in nature , in flowers etc . It could be a natural occurrence . One thing is for sure , the star must be one beautiful star .