These visuals are made from the original lecture transparencies
- The Rules
- NMR Instruments in the Facility
- Gemini-200 R2D2 Magnet
- Gemini-200 Console and Cockpit
- Unity-300 Magnet and Autosampler
- Unity-300 Console and Cockpit
- Avance-III-400 Magnet and Autosampler
- Avance-III-400 Console and Cockpit
- Avance-III-400 SampleJet Carousel
- DRX-500 Magnet and Console
- DRX-500 Cockpit
- DRX-600 Magnet
- DRX-600 Cockpit and Console
- Inova-600 Magnet
- Inova-600 Cockpit and Console
- Inova-600: Diagram of Cryogenic Probe System
- Inova-600 Cold Head with Sides Removed
- Inova-600 Helium Compressor and Chilled Water Manifold
- Inova-600 Water Chiller Indoor Unit
- Inova-600 Water Chiller Outdoor Unit
- Outline: Getting an NMR Spectrum
- Sample Preparation
- Sample Depth
- Lock: The Deuterium Lock Feedback Loop
- The Deuterium Lock Channel
- Lock Circuit Feedback Loop
- Lock Display
- Shimming: Maximizing the Homogeneity of the Field
- Diagram of Z Shims and Bo Inhomogeneity
- Shim Hardware and Operation
- Interaction of Z1 and Z2 Shims
- Bad Z2 Shim: Sucrose 1H Spectrum
- FID: Free Induction Decay
- Receiving the FID: Analog and Digital
- Receiving the FID: Block Diagram
- FID: CHCl3/CH2Cl2, 0 to 2 9 seconds
- FID: CHCl3/CH2Cl2, 0 to 0 425 seconds
- FID: CHCl3/CH2Cl2, 0 to 36 ms
- Digitization of the FID
- Receiver Gain Optimization
- Quadrature Detection: The FID in Stereo
- Quadrature Detection: Cartoon Model
- Limits to Frequency: the Nyquist Theorem
- Limits of Digitization: the Nyquist Theorem
- Exceeding the Maximum: Folding or Aliasing
- Folding or Aliasing
- Two Ways to Sample the Stereo Audio FIDs
- Digitized FID Data (DW = 80 microseconds)
- FID: CHCl3/CH2Cl2, 0 to 36 ms, Analyzed
- The Spectral Window
- Spectrum: CHCl3/CH2Cl2, with MHz, Hz and ppm Scales
- The Spectral Window in Units of Parts per Million
- Acquisition Parameters: Relationship of SW, AT and NP
- NMR Frequency Depends on the Observe Nucleus