{"id":458,"date":"2013-12-04T23:30:14","date_gmt":"2013-12-05T05:30:14","guid":{"rendered":"http:\/\/blogs.ams.org\/blogonmathblogs\/?p=458"},"modified":"2013-12-05T14:05:58","modified_gmt":"2013-12-05T20:05:58","slug":"ive-always-resonated-with-mobius-bands-but-now-i-know-signals-do-too","status":"publish","type":"post","link":"https:\/\/blogs.ams.org\/blogonmathblogs\/2013\/12\/04\/ive-always-resonated-with-mobius-bands-but-now-i-know-signals-do-too\/","title":{"rendered":"I’ve always resonated with Mobius bands — but now I know signals do too!"},"content":{"rendered":"

\"11M27F17x250\"<\/a>So here I am, trained as a topologist and geometric group theorist, starting a job that involves mainly digital signal processing. Today I was perusing the magazines on the shelf at my new job, and what do I see?\u00a0 The cover of Microwave Journal is emblazoned with “SUPER MOBIUS RESONATOR” and features a Superhero<\/a> whose crest is a Mobius Strip!\u00a0 Is this really the unorientable surface with boundary that I have grown to love?\u00a0 Why yes!\u00a0 The first few paragraphs of the multi-page article<\/a> discuss the very familiar properties of a Mobius strip using familiar words like “developable” and “anholonomy”.\u00a0 While I am still a bit mystified as to why the Mobius strip makes such a good resonator and what exactly is meant by “planar” Mobius Strip, I am certainly intrigued.\u00a0 Apparently signals can travel unimpeded around the Mobius strip in a way that is not possible around an oriented loop.\u00a0 And to think, the first week on the job I entertained my office mate by cutting a mobius strip in half! (More about that later.)<\/p>\n

So this sent me on a little Mobius hunt around the web.\u00a0 Is the idea of a Mobius strip being used to make a resonator related to he presence of the Mobius strip in meta-materials as impelemented in 2010?\u00a0 Researcher Xiang Zhang stated in this article <\/a>\u201cWe have experimentally observed a new topological symmetry in electromagnetic metamaterial systems that is equivalent to the structural symmetry of a M\u00f6bius strip, with the number of twists controlled by sign changes in the electromagnetic coupling between the meta-atoms,\u201d Zhang says. \u201cWe have further demonstrated that metamaterials with different coupling signs exhibit resonance frequencies that depend on the number but\u00a0 not the locations of the twists. This confirms the topological nature of the symmetry.\u201d<\/p>\n

It’s so exciting to me to see such connections, and I’m looking forward to fleshing them out.\u00a0 As I searched for more information on recent applications involving the Mobius Strip, I found this wonderful video<\/a> from the Royal Institution of Great Britain of a superconductor floating along a Mobius racetrack made of magnets.<\/p>\n

An\"universearchitecture_2013_landscapehouse_site\"<\/a>d if this racetrack made you wish you had a bigger model of a Mobius strip, look no further than Dutch architect Janjaap Ruijssenaars who worked with a mathematically trained sculptor to create a model of a Mobius house<\/a>.\u00a0 This house will be created using a 3D printer and will be 12,000 square feet.<\/p>\n

Lastly, even if you have cut a Mobius band in half (or in thirds or fourths, etc) along its length, you may not have tried cutting up a Klein bottle.\u00a0 For a guided tour of that experience, check out the November 15th post by Science writer Matthew R. Francis at Galileo’s Pendulum.<\/a> Francis suggests with his post that with all this cutting, we might convince even those who claim to dislike mathematics to be swayed to our side.\u00a0 My computer scientist office-mate was certainly entertained!<\/p>\n

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So here I am, trained as a topologist and geometric group theorist, starting a job that involves mainly digital signal processing. Today I was perusing the magazines on the shelf at my new job, and what do I see?\u00a0 The … Continue reading →<\/span><\/a><\/p>\n

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