Difference between revisions of "Undergraduate Radio Lab"
From AstroBaki
Jump to navigationJump to search| Line 54: | Line 54: | ||
** [[Nyquist Sampling]] | ** [[Nyquist Sampling]] | ||
** [[Fourier Transform]] | ** [[Fourier Transform]] | ||
| − | ** [[Unix Primer]] | + | ** Technical Skills |
| − | ** [[Python Installation and Basic Programming]] | + | *** [[Unix Primer]] |
| − | ** [[Revision Control]] | + | *** [[Unix Text Editors]] |
| − | ** [[Getting Started w/ Github]] | + | *** [[Python Installation and Basic Programming]] |
| − | + | **** [[Revision Control]] | |
| + | **** [[Getting Started w/ Github]] | ||
| + | |||
* Demos and Tutorials | * Demos and Tutorials | ||
** [https://github.com/AaronParsons/ugradio/blob/master/jupyter_tutorials/lab1/python_intro.ipynb Introduction to Python and Plotting] | ** [https://github.com/AaronParsons/ugradio/blob/master/jupyter_tutorials/lab1/python_intro.ipynb Introduction to Python and Plotting] | ||
| Line 65: | Line 67: | ||
** Astrobaki, Syllabus, Office Hours | ** Astrobaki, Syllabus, Office Hours | ||
** Getting accounts (premade by Bill Boyd, change password) | ** Getting accounts (premade by Bill Boyd, change password) | ||
| − | ** Lab access ( | + | ** Lab access (see [[Getting Started in the Undergraduate Radio Lab]]) |
** Class philosophy and workflow | ** Class philosophy and workflow | ||
** [[Nyquist Sampling]] and aliasing | ** [[Nyquist Sampling]] and aliasing | ||
Revision as of 15:38, 13 January 2022
This course consists of four laboratory experiments that concentrate on radio instrumentation and laboratory techniques. We will build receiving, observing, and data analysis systems for two telescopes: a single-dish 21-cm line system, and a 10.7-GHz interferometer. We will use these telescopes for astronomical observing projects including structure of the Milky Way galaxy, precise position measurement of several radio sources, and measurement of the radio brightness distributions of the sun and moon with high angular resolution. There is a heavy emphasis on digital data acquisition, software development in the Python language, and high-quality written reports.
Class Programmatics
- Class Code Repository: http://github.com/AaronParsons/ugradio
- Syllabus
- Zoom Room: 358 760 9756
- Bcourses: 1512067
- Discord: https://discord.gg/vdmcyZcAbS
- Class Hours:
- Tuesday/Thursday 1:30-3:30pm
- Office Hours:
- Aaron Parsons (aparsons at berkeley): TBD, or by appointment, in standard Zoom Room: 358 760 9756
- Christian Bye (chbye at berkeley): TBD or by appointment (Through Discord Office Hours Channel)
- Mine Gokcen (minegokcen at berkeley):
- Frank Latora (fjlatora at berkeley):
- Lab Groups:
- Group 1
- Group 2
- Group 3
- Group 4
- Group 5
Experiments
- Lab 1: Exploring Digital Sampling, Fourier Transforms, and both DSB and SSB Mixers
- Lab 2: Astronomy with the 21cm Line; Some Microwave Electronics
- Lab 3: Radio Interferometry at X Band
- Lab 4: Mapping the HI Line: the Galaxy and Supershells
Getting Set Up
General Skills Used Through-Out Course
- Navigating Linux/Unix-like Operating Systems
- Programming in Python
- Software Engineering
- Report Writing
Topics by Date
Lab 1 (Exploring Digital Sampling, Fourier Transforms, and both DSB and SSB Mixers), Due Feb 8, 1:30p
Lab 1, Week 1 (Jan 18): Sampling and Power Spectra
- Resources and Handouts
- Demos and Tutorials
- In class:
- Astrobaki, Syllabus, Office Hours
- Getting accounts (premade by Bill Boyd, change password)
- Lab access (see Getting Started in the Undergraduate Radio Lab)
- Class philosophy and workflow
- Nyquist Sampling and aliasing
- Fourier Transform
- Lab Hardware
- PicoScope 2206a
- Data Challenge
- Lecture 1 Zoom Recording
- Lecture 2 Zoom Recording
Lab 1, Week 2 (Jan 26): DSB and SSB Mixers
- Theory and Background:
- Demos and Tutorials
- In class:
- Lecture 3: Discrete Fourier Transforms and the Convolution Theorem
- Lecture 4: Show and Tell
- Lecture: Introduction to DSB and SSB Mixers
- Show and Tell (10m per group)
Lab 1, Week 3 (Feb 1): More Mixers, and Lab Reports
- Theory and Background
- LaTeX
- Introduction to Python and Plotting, second pass
- LaTex Template Template you may use for your lab report
- In Class:
- Lecture: One more pass on Convolution Theorem, Heterodyne Mixers, and DFTs
- Lecture 5
- Lecture 6
- Show and Tell
- Writing Lab Reports
- Lab 1 Due Feb 8, 1:30p
Lab 2 (Astronomy with the 21cm Line; Some Microwave Electronics), due Mar 1, 1:30p
Lab 2, Week 1 (Feb 8): 21cm Line and Waveguides
- Theory and Background:
- Demos and Tutorials
- Python Tutorial Part 3: Functions, Modules, and Objects
- Matrix Math with Numpy
- Doppler Corrections, ugradio.doppler
- In class:
Lab 2, Week 2 (Feb 15): Collect and Analyze Data
- Theory and Background
- Demos and Tutorials
- In Class:
- Show and Tell
- Waveguides, Transmission Lines, and Rope
- Fitting Gaussians and Polynomials, ugradio.gauss
- Lecture 9
- Lecture 10
Lab 2, Week 3 (Feb 22): Write Lab Report
- Theory and Background
- In Class:
- Chi-Square Jupyter Notebook
- Show and Tell
- Least Squares Part 2
- Lecture 11
- Lab 2 Due Mar 1, 1:30p
Lab 3 (Radio Interferometry at X Band), due Apr 5, 1:00p
Lab 3 Week 1 (Mar 1): Interferometer
- Theory and Background
- In Class:
- Tour of Rooftop Interferometer
- Exercise Ball Coordinates
- Interferometry with Strings
- Lecture 12
- Lecture 13
Lab 3 Week 2 (Mar 8): Collect and Analyze Data
- Theory and Background
- In Class:
- Show and Tell
- Controlling the Telescope
- Tracking the Sun
- Scheduling Observations
- Lecture Links
Lab 3 Week 3 (Mar 15): Collect and Analyze Data
- Theory and Background
- In Class:
- Show and Tell
- Linear Least-Squares in Python
- Minimizing Chi-Square]
- Noise in Observations
- Lecture Links
No class (Mar 23, 26)
Lab 3 Week 4 (Mar 29): Write Lab Report
- Theory and Background
- In Class:
- Show and Tell
- Photon bucket demo
- Lecture Links
- Lab 3 Due Apr 6, 1:30p
Lab 4 (Mapping the HI Line: the Galaxy and Supershells), due May 3, 1:30p
Useful Links
Lab 4 Week 1 (Apr 5): Leuschner Dish
- Theory and Background
- In Class:
- Trip to Leuschner: Class will go later than usual
- drive mechanism (how the dish moves)
- feed (notice probes) and cables
- IF setup (one channel for OH, one for HI)
- interacting with a CASPER spectrometer
- pointing control
- spatial sampling with dish
- Lecture Links
Lab 4 Week 2 (Apr 12): Collect and Analyze Data
- Theory and Background
- In Class:
- Show and Tell
- spatial sampling with a dish
- interpolation
- projection
- Lecture Links
Lab 4 Week 3 (Apr 19): Collect and Analyze Data
- Theory and Background
- In Class:
- Show and Tell
- close-out plan
- computing doppler width for a line of sight (assuming circular motion)
- calibrating spectra
- converting spectra to hydrogen
- Lecture Links
- Lab 4 Lecture 5 (Tuesday 4/21; access 7f!o&=J9)
- Lab 4 Lecture 6 (Thursday 4/23): share day; no recording
Lab 4 Week 4 (Apr 26): Write Lab Report
- Theory and Background
- In Class:
- Show and Tell
- displaying information in image form
- Lab 4 Due May 3, 1:30p
- Lecture Links
Unused but Useful?
- Radiometer Equation
- Quantization and Rounding
- Reciprocity Theorem
- Dipole Antennas
- Impedance of Free Space
- Radiometer Equation Applied to Telescopes
- Radiometer Equation Applied to Interferometers
- Fringe Stopping
- Direction Dependent Beams
- Self Calibration
- Flux Calibration
- Gridding
- Earth Rotation Synthesis
- Delay Imaging
