20.309 development to-do list

From Course Wiki
Jump to: navigation, search

Style principles

  • Model the 20.309 report writing guidelines
  • Use Wikipedia style guidelines except when they are inappropriate
    • Document exceptions here
    • Capitalize only the first letter of the page title, proper nouns, and acronyms
    • Do not use pseudo-namspaces
  • Use HTML for inline equations, LaTex for equations on their own line
  • Each lab should have its own main page with links to all the component pages
  • There should only be a link to the lab main page from the wiki main page
  • Hyperlinks should be meaningful
    • Some seminal visions of hypertext documents envisioned that every word on a page would be a hyperlink. Unfortunately, in HTML all links carry equal emphasis. Thus, readers cannot easily differentiate between low- and high-value links. The bodies of articles on this wiki should include only high-value links. Do not include a link in the body of a page unless you intend that it is to be followed by most of students. Lower value links can be included in separate section at the end of the page that clearly delineates their purpose, with a title such as "See also."

Use these categories:

  • 20.309 general
  • Optical microscopy
  • Optical microscopy lab
  • Electronics signals and systems
  • DNA melting lab
  • AFM
  • Optical trapping
  • Thermally limited measurement lab
  • Lab exercise
  • Image processing

Circuits, signals and systems theory

Task Priority Owner Link Status
Electronics primer 1
Capacitors and inductors (time response) 1
Bode plots and frequency response 1
Modeling real systems (based on Real Electronics lecture) 1
Circuits (based on electronics primer, including C and L) 1
Bode plots 1
Fourier transform, transfer functions 1

Intro to electronics lab

Task Priority Owner Link Status
Rewrite 1

DNA melting lab

Task Priority Owner Link Status
Simulating DNA melting I (include noise/parameter confidence interval plot) 1
Page: Build and test your amplifier
Rewrite lock-in in Matlab 3
Redesign heating block for round, disposable vials

Optics

List of optics pages:

Microscopy lab

Lecture schedule

Sources: Stellar | Materials | Lectures, Manalis packet, File names of lecture videos. Try to reflect actual lecture content ...

  • Optics
    • Lecture 1: Course Overview
    • Lecture 2: Introduction to Optics
    • Lecture 3: Lab 1, Eyeballs, and Laser Safety
    • Lecture 4: Limits of Light Microscopy
    • Lecture 5: Optical Detectors
    • Lecture 6: Fluorescence Microscopy
    • Lecture 7: Image Processing I
    • Lecture 8: Image Processing II -- Feeling the Fourier Transform
    • Lecture 9: Phase Microscopy & Microrheology
    • Lecture 10: Polarization Techniques
    • Lecture 11: 10/04 DNA Melting Lab & Particle Tracking
  • Electronics
    • Lecture 12: 10/05 Voltage dividers and electrical impedance
      • Reading: H&H p. 3-24
      • Note: there was a PPT / handout, but it's not on Stellar(!?)
      • Lecture ended with brief disc of Thevenin eqv
    • Lecture 13: 10/11 Statistics & Intro to DNA Melting Lab
      • Reading: SantaLucia, p. 1460-1462
    • Lecture 14: 10/12 Capacitors and RC circuits
      • Reading: H&H p. 32-35 and 6.002 notes p. 703-718, 993-1004
    • Lecture 15: 10/16 Transfer Functions and RC filters
      • Reading: H&H p. 37-40, 46-53
      • 6.002 notes p. 1004-1012, 1030-1054
    • Lecture 16: 10/18 Feedback and Amplifiers I
      • Reading: H&H p. 163-176 and 6.002 notes p. 1185-1191
    • Lecture 17: 10/19 Feedback and Amplifiers II
      • Reading: 6.002 notes p. 1191-1220 Elect Intro Lab Due
    • Lecture 18: 10/23 Real Electronics
    • EXAM #2 Electronics
  • Signals and Systems
    • Lecture 19: 10/26 Modeling Real Systems
      • Frequency response of optical table
    • Lecture 20: 10/30 Transforms - PSD - Noise
    • Lecture 21: Convolution I: Noise, Lock-in amplifier Fri, October 26
      • Reading: Strang p. 263-275, 309-315
    • Lecture 22: 11/02 Convolution II: Lock-in Demo
      • Reading: Strang p. 316-320
    • Lecture 23: 11/06 Nyquist and Shot Noise once again
    • Lecture 24: 11/08 Advanced DNA Melting
    • Lecture 25, 26: 11/9, 11/15 3D Microscopy
    • 11/13 EXAM #3
    • Lecture 27: 11/16: Advanced microscopy
    • Lecture 28: 11/20 Ultimate limits of detection I
      • Reading: Manalis notes
    • Lecture 29: 11/27 Ultimate limits of detection II
      • Reading: Manalis notes
    • Lecture 30: 11/30 Guest Lecture
  • Orphans
    • Lecture 14: Statistics and Lab 1 wrap-up Thurs, October 11
      • Reading: HW #4 Due
    • Lecture 15 Input/output impedance
    • Lecture 16: RC Circuits
    • Lecture 18: Frequency Response of an Optical Table
    • Filtering Tues, October 30
    • Sampling, Nyquist, and Discrete Transform Thurs, November 1
      • Reading: Tutorial and Press p. 500-504
    • Power Spectral Density, Noise and Bandwidth Fri, November 2
      • Reading: Press p. 496-500 (on PSD) DNA Melting, pI
    • Sampling, Nyquist, Discrete Transforms, and all that
    • Lecture 25: 11/08 Advanced DNA Melting