- LM52, Jan 2011 Issue
- LM51, Dec 2010 Issue
- LM50, Nov 2010 Issue
- LM49, Oct 2010 Issue
- LM48, Sep 2010 Issue
- LM47, Aug 2010 Issue
- LM46: Easy-to-Build Luminaire using Photonic Lattice LEDs, Vento Ballast and SynJet Cooler
- LM45: Short Light Pulses Appear Brighter - The Broca Sulzer Effect
- LM44: An MR16-style Light Engine Using a Photonic Lattice HBLED
- LM43: The Department of Energy's New "Lighting Facts" Label for Consumers
- LM42: Growing Plants with HBLEDs, Part I
- LM41: Commercially Available Organic LEDs (OLEDs), Part I
- LM40: Add a Miniature Projector or Heads Up Display to Your Product with FLCOS and Sequentially-Switched HBLEDs
- LM39: Solar-Powered LED Illumination, Part I
- LM38: Super Flashlights and Photonic Lattices
- LM37: Chromatic Aberration, LEDs and Diamonds
- LM36: It's All in the Eye - HBLED Color Purity, Dominance and Peak Wavelength
- LM35: US Government Pushes for LED-based Lighting Replacements for Incandescent Bulbs
- LM34: AC Mains Triac (Phase-Angle) Dimming of HBLEDs
- LM33: A New Miniature Blue Laser Diode and Potential Medical Uses
- LM32: LED Streetlights, Part I
- LM31: OLIROS - A New Platform for Evaluating High-Power Infrared LEDs - Part 2
- LM30: OLIROS - A New Platform for Evaluating High-Power Infrared LEDs - Part 1
- LM29: Building a Compact High-Performance Light Source Using a Nuventix Cooler and an OSRAM 4-Die Array
- LM28: Design Considerations for High-Power Ultraviolet LEDs
- LM27: Introducing a New Generation of High-Power Ultraviolet PhlatLight LEDs for Industrial Curing and other Applications
- LM26: The Impact of Color Saturation and the New ANSI Standard for Color Temperature
- LM25: The Effect of HBLED Junction Temperature on an HBLED's Useful Life
- LM24: Lambertian, Butterfly and other HBLED Radiation Patterns
- LM23: Low Noise, High Reliability Cooling for HBLEDs
- LM22: Endoscopy with HBLEDs and PhlatLights
- LM21: Introducing Ultra-Bright Photonic Lattice HBLEDs
- LM20: HBLED Dimming Techniques and Trade-offs
- LM19: Tactical Flashlights and TIR Lenses
- LM18: Edison, Westinghouse and the Acriche AC LED
- LM17: Medical Applications of HBLEDs
- LM16: HBLED Channel Lettering for Signage and Illumination
- LM15: The ENERGY STAR ProgramÂ
- LM14: Selecting HBLEDs for Oceanic Applications
- LM13: Photons and Fingerprints
- LM12: HBLEDs and Eye Safety
- LM11: Understanding Color Rendering Index (CRI)
- LM10: High Flux White HBLEDs and Modules
- LM09: Driving LEDs with AC-Mains Current - Part One
- LM08: Efficiency of DC-DC HBLED Drivers
- LM07: High-Power IR Applications
- LM06: Exploring High-Power Ultraviolet LEDs
- LM05: HBLED Optics Fundamentals
- LM04: A General Method for Determining HBLED Thermal Management Requirements
- LM03: The Wonders of White Light and Color Temperature
- LM02: The CIE Chromaticity Diagram and LED Color Gamuts
- LM01: Human Eye Response and Introduction to Photometric Units
|
