Skip to content
This repository has been archived by the owner on Mar 27, 2023. It is now read-only.
/ XUVI-2022 Public archive

Resources for XUVI, Summer Project 2022, IIT Kanpur

License

Notifications You must be signed in to change notification settings

astroclubiitk/XUVI-2022

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

28 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Summer Project 2022: XUVI

Astronomy Club, SnT Council, IITK

Project resources and assignments will be pushed to this repository on a pereodic basis. The submission to the assignments are to be made here.

Directory Structure

.
│   LICENSE
│   README.md
│
├── Project Report
│   ├── Documentation.pdf
│   ├── End Term Presentation.pdf
│   ├── Mid Term Presentation.pdf
│   └── Poster.pdf
├── Week 1
│   ├── Assignment 1.ipynb
│   ├── Intro to python.ipynb
│   ├── Lecture 1.pdf
│   └── Lecture 2.pdf
├── Week 2
│   ├── Assignment 2.ipynb
│   ├── lakes.csv
│   ├── Lecture 3.pdf
│   ├── Numpy Intro.ipynb
│   └── Pandas Intro.ipynb
├── Week 3
│   ├── astrometry_data.csv
│   ├── Astrometry.ipynb
│   ├── Scipy Intro.ipynb
│   ├── transit_data.csv
│   └── Transit.ipynb
├── Week 4
│   ├── Astropy Intro.ipynb
│   ├── ch2_xsm_20210909_v1_level2.lc
│   ├── Lecture 4.pdf
│   └── Lecture 5.ipynb
└── Week 5
    ├── LC Files
    │   ├── ch2_xsm_20200928_v1_level2.lc
    │   ├── ch2_xsm_20201011_v1_level2.lc
    │   ├── ch2_xsm_20201014_v1_level2.lc
    │   ├── ch2_xsm_20201027_v1_level2.lc
    │   ├── ch2_xsm_20201101_v1_level2.lc
    │   ├── ch2_xsm_20201102_v1_level2.lc
    │   ├── ch2_xsm_20201108_v1_level2.lc
    │   ├── ch2_xsm_20201111_v1_level2.lc
    │   ├── ch2_xsm_20210403_v1_level2.lc
    │   └── ch2_xsm_20210508_v1_level2.lc
    ├── Flare.ipynb
    └── Preprocessing.ipynb

Abstract

Astronomical solar flare data is extremely noisy and needs proper filtering and noise reduction. During the project, we shall look into the applications of different computing libraries of python, in reading and analysing different datasets. Astronomical Spectroscopy, Exoplanets, Light Curves would be theoretical foundations for giving rise to the importance of python implementation in astronomy. The aim would be to implement computational techniques in observing and plotting data, pre processing of the data, applying spectrum analysis, and then moving on to developing our own algorithm for modelling the flares as a concluding remark. A very interesting part of the project would be crafting a basic model of spectroscope which would provide the analysis of the spectrum of sunlight at different times of the day.

Mentors

Cosmos is within us!