All pages
- - Magnetic Susceptibilities
- - Saturation
- - Spin-Lattice Relaxation Time
- - Spin-Spin Interactions
- - The Resonance Condition
- APL HPC Cluster
- A Schottky Diode
- Advanced Projects
- Advanced Projects Lab
- Alignment of the Fiber Bench
- Artificial Intelligence
- Artificial Intelligence And Searching
- Artificial Intelligence and Searching
- Astronomical Spectroscopy
- Asymmetric Trap: Correction Attempts and Existing Questions
- Atomic Force Microscope
- Autocorrelator
- Basic Machining Obstacle Course
- CW/Pulsed NMR
- Chaos in a Double Pendulum
- Clark-MXR CPA-Series Ti:Sapphire laser
- Coherent Avia 355-23-250
- Computer Vision
- Construction and Use of a Spatial Light Modulator (SLM)
- Cutting the Board
- Data Mining
- Decision Forests
- Developing the Board
- Digital-Electronics Obstacle Course
- Dispersion in an Optical Fiber
- Eeschema
- Electron Spin Resonance
- Electronics
- Electronics Obstacle Course
- Erbium-Doped Fiber Amplifier & CW Laser
- Erbium-Ytterbium Doped Fiber Laser
- Etching the PCB
- External-Cavity Tuneable Diode Laser
- Fiber-Optics Obstacle Course
- Fiber Epoxy Mixing Instructions
- Fiber Optics
- Fiber Simulations with RP Fiber Power
- Footprint Editor
- Function Generators and Oscilloscopes
- Fusion Splicing
- General Lab Equipment Obstacle Course
- Gerbview
- Graphene as Saturable Absorber
- Gravitational Constant Measurement
- Group 1
- Heat Content Asymptotics
- High-Power Pulsed Fiber Laser
- How To Make a PCB
- How to Coat Optical Fibers
- How to Make a Printed Circuit Board (PCB)
- How to Read a Micrometer
- How to Test Transistors and FETs
- I2C
- I2C/SPI
- IR laser
- Installing and Opening KiCad
- Interferometers
- Intro to Robotics and AI
- Introduction To gEDA
- LD Constant Current Supply
- LabVIEW Primer
- Laser-Matter Interaction Studies
- Lock-in Amplifier
- MEEP
- Machine Learning: Linear Regression
- Main Page
- Make and Test a Semiconductor Device
- Making Diluted Solutions of MicroSpheres
- Master Oscillator Power Amplifier Pulsed Laser
- MgB2 Superconductor
- Millikan Oil Drop Experiment
- Mode-locked Erbium-Ytterbium Doped Fiber Laser
- Modelocked Fiberlaser
- Modules
- Multimeters
- NLight Element e03 laser
- Nuclear Magnetic Resonance
- OAM & Surface Plasmon Resonance
- Observational Astronomy
- Operating Fusion Splicers and Preparing the Fiber
- Operating a Metal Lathe
- Operating a Milling Machine
- Optical Chaos with External Feedback Mirror
- Optical Fiber Dispersion
- Optical Tweezers
- Optical Tweezers for Biology
- Optics Modeling with Optica
- Optics Obstacle Course
- Our Code
- Our Laser Systems
- Parallel Programming on the APL Cluster
- Parallel Python
- Pcbnew
- Permittivity and Permeability of Materials Obstacle Course
- Photo-Electric Effect
- Photon Counting Fundamentals
- Physical Adsorption
- Physics of Semiconductor Devices
- Populating the PCB
- Pound Drever Hall Lock-In
- Power Supplies
- Preparing the UV Chamber and Board
- Pressure Sensor Technologies
- Printing the Paper Copy
- Pumping Systems
- Python GUI Demo
- RF Communications
- RF Signals
- Radiation Physics
- Rb Atom Trap
- Robotics
- RotationStage - HowTo
- SRS Photon Counter
- Sagnac Fiber-Optic Gyroscope
- Saturated Absorption: Achieving a Continuous Scan Through Elimination of Mode Hops, Includes Implementation of Feedforward Circuit
- Saturated Absorption Spectroscopy
- Schlieren Flow Visualization
- Scientific Python Primer
- Self driving car
- Serial and Parallel Pi Calculation
- Setting up the cluster
- Slide Mount Apparatus
- Slide Set-Up
- Soldering
- Sonoluminescence
- Spontaneous Parametric Downconversion
- Spring 2014
- Start-Up Procedure
- Superconductivity
- Surface Plasmon Resonance
- Synrad Firestar V30 CO2 laser
- Teaching Modules
- The Darkroom
- Trapping Bacteria
- Two-Slit Interference: One photon at a time
- UV testing and Cutting Glass (Optional)
- Vacuum-Component Assembly: Tips and Procedures
- Vacuum Technology
- Vacuum Technology Obstacle Course
- Vibrio Cholerae
- Working with TeX Equations
- Youtube Tutorial