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| {{headerNSROS}}
| | <div style="float:left; width:auto; background:#111; color:orange; padding:0 1em;"> |
| <center>{{orange24|Welcome to the CW NMR NucleoSonic Ring Oscillator Project!}}</center>
| | [[NSROS.system|System]] ⋅ |
| <div style="float:right;"> | | [[NSROS.about]] ⋅ |
| __TOC__
| | [[NSROS.references]] ⋅ |
| | {{editTemplate|MenuNSROS}} |
| </div> | | </div> |
| ;This project wiki is developed by [[:category:TheAIandI|the AI and I]] —a [[User:XenoEngineer|XenoEngineer]] / ChatGPT collaborative
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| ={{lime24| About the Nucleosonic Ring Oscillator System }}=
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| ==={{lime24|From the AI}}===
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| This exciting endeavor aims to investigate and manipulate the fascinating realm of Nuclear Magnetic Resonance (NMR) using an innovative combination of torus knots, bismuth, high-powered currents, and machine learning algorithms. We're setting out to break new ground in the world of NMR and we invite you to come along for the journey.
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| ==={{lime24|Our Mission}}===
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| Our mission is to create a physical setup and algorithmic control system capable of modulating the magnetic fields of torus knots, with the aim of influencing the magnetic behavior of bismuth. We hope to unlock novel ways of analyzing NMR signatures and discovering hidden patterns within the noise of the system's output.
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| ==={{lime24|Project Components}}===
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| ;The Physical Setup
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| The heart of our experiment involves a sophisticated setup of copper torus knots designed to interact with bismuth and generate complex magnetic fields. Our exploration takes us into the intricate world of torus knots, their unique properties, and their potential impact on the NMR of bismuth.
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| ==={{lime24|Machine Learning}}===
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| Our system doesn't stop at physical experimentation - we're building a machine learning model capable of discerning patterns within the noise of an NMR oscillator's output. This component introduces you to the fascinating world of AI, its possibilities, and its applications in signal processing.
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| ==={{lime24|Hardware Technology}}===
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| We're leveraging the power of Field-Programmable Gate Arrays (FPGAs) to handle the high-speed, parallel processing of data that our experiment requires. Get a closer look at the potentials of this technology and how we're harnessing it for our project.
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| ==={{orange24|Navigating the Project}}===
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| Our project billboard is designed in layers, just like the project itself. Each layer offers different levels of concept complexity, catering to a wide range of interests and expertise. Dive in as deep as you like, and remember, there's always a way back to the surface. Here's a simple map to guide your journey:
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| '''[[NSROS Concept Boards]]:''' These provide a broad overview of each project component, without diving too deep into the technical details. Great for beginners or those looking for a high-level understanding.
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| '''[[NSROS Technical Documents]]:''' Here you'll find in-depth explanations, project logs, data analysis, and more. Perfect for those who love to delve into the nitty-gritty of science.
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| '''[[NSROS Visualizations & Media]]:''' Visit here for interactive content, data visualizations, images, and videos. A picture is worth a thousand words, after all!
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| ==={{lime24|Join the Adventure}}===
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| Whether you're a physicist, machine learning enthusiast, student, or simply a curious mind, we invite you to explore our project. Every question is a step forward in our journey, and every insight brings us closer to our goal. Welcome to the Geomagic NMR Project!
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| </div>
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| <br/><br/>
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| {{footerNSROS}}
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