Maple Code for "Locating Schumann Resonant Frequencies on a Single Particle Radiation Patterns Using Golden Ratio Spiral"

Predicting and locating Schumann resonances on a different single particle radiation patterns using Golden ratio spiral. Theoretically predicted radiation patterns in the Dataset for "Asymmetric Backward Peaking Radiation Pattern from a Relativistic Particle Accelerated by Lightning Leader Tip Electric Field" are used in conjunction with the Golden ratio spiral, which is explained in the paper "Locating Schumann Resonant Frequencies on a Single Particle Radiation Patterns Using Golden Ratio Spiral", to locate Schumann resonances. This theoretical idea is simulated for prediction and demonstration using a Maple software package that just consists of equations explained in the two aforementioned papers. Maple 2018.2 version was used on a 16Gb RAM computer to simulate the results.

Keywords:
Theoretical Physics, Schumann Resonances, Atmospheric Electrodynamics, Radiation Patterns
Subjects:
Atmospheric physics and chemistry
Atomic and molecular physics

Cite this dataset as:
Yucemoz, M., 2022. Maple Code for "Locating Schumann Resonant Frequencies on a Single Particle Radiation Patterns Using Golden Ratio Spiral". Bath: University of Bath Research Data Archive. Available from: https://doi.org/10.15125/BATH-00914.

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Code

FB Peaking … Updated April 2020 .mw
application/xml (256kB)
Creative Commons: Attribution 4.0

Golden Ratio Spiral applied on to Forward Backward peaking radiation pattern. Maple code is just used to simulate the new theory presented in the paper. There is no data used from outside.

Dipole Golden … April 2020 .mw
application/xml (235kB)
Creative Commons: Attribution 4.0

Golden Ratio Spiral applied on to Dipole radiation pattern. Maple code is just used to simulate the new theory presented in the paper. There is no data used from outside.

Distorted Golden … April 2020 .mw
application/xml (252kB)
Creative Commons: Attribution 4.0

Golden Ratio Spiral applied on to distorted Dipole radiation pattern. Maple code is just used to simulate the new theory presented in the paper. There is no data used from outside.

Creators

Mert Yucemoz
University of Bath

Contributors

University of Bath
Rights Holder

Documentation

Technical details and requirements:

Maple 2018.2 version was used on a 16Gb RAM computer to simulate the results.

Funders

Engineering and Physical Sciences Research Council
https://doi.org/10.13039/501100000266

Studentship - Electromagnetic Emissions from Energetic Charged Particles Generated by Lightning Discharges
2095240

Studentship - Electromagnetic Emissions from Energetic Charged Particles Generated by Lightning Discharges

Natural Environment Research Council
https://doi.org/10.13039/501100000270

Radio Tomography for Atmospheric Science
NE/L012669/1

Natural Environment Research Council
https://doi.org/10.13039/501100000270

Relativistic Electron Beams Above Thunderclouds
NE/H024921/1

Engineering and Physical Sciences Research Council
https://doi.org/10.13039/501100000266

DTP 2016-2017 University of Bath
EP/N509589/1

Publication details

Publication date: 25 April 2022
by: University of Bath

Version: 1

DOI: https://doi.org/10.15125/BATH-00914

URL for this record: https://researchdata.bath.ac.uk/id/eprint/914

Related papers and books

Yucemoz, M., 2020. Locating Schumann Resonant Frequencies on a Single Particle Radiation Patterns Using Golden Ratio Spiral. Earth and Space Science Open Archive. Available from: https://doi.org/10.1002/essoar.10504424.1.

Yucemoz, M., 2021. Odd, Even & Whole Number Schumann Point Triads of a Relativistic Radiation Pattern. Earth and Space Science Open Archive. Available from: https://doi.org/10.1002/essoar.10506414.1.

Related datasets and code

Yucemoz, M., 2022. Dataset for "Asymmetric Backward Peaking Radiation Pattern from a Relativistic Particle Accelerated by Lightning Leader Tip Electric Field". Version 2. Bath: University of Bath. Available from: https://doi.org/10.15125/BATH-01132.

Contact information

Please contact the Research Data Service in the first instance for all matters concerning this item.

Contact person: Mert Yucemoz

Departments:

Faculty of Engineering & Design
Electronic & Electrical Engineering

Research Centres & Institutes
Centre for Space, Atmospheric and Oceanic Science