| Document | Description |
| Basic Laser Principles | Basic Laser Principles |
| Fiber-Optic Laser Beam Delivery Systems | Laser-to-fiber couplers use a lens to focus the light from the laser to a spot matching the size of the fiber core. The coupler is attached directly onto the laser and uses a patented tilt adjustment technique |
| Frequency and Amplitude Fluctuations | Frequency and Amplitude Fluctuations |
| High Energy Laser Damage Threshold | Measurement definitions and results |
| Introduction to Air-Cooled Ion Lasers | CVI Melles Griot is a major manufacturer of air-cooled ion lasers for OEM applications in medicine, reprographics, and analytical instrumentation. Consequently, we offer a wide variety of standard and custom options. For complete, turnkey systems that meet all of the environmental and emission requirements for stand-alone systems, click Buy Online in the table below. To review our complete product offering, including customization options, click on the Build to Order icon. |
| Introduction to Diode Laser Assemblies | Diode Laser Assemblies are readily available at wavelengths varying from 408 nm to 1.6 µm and above, and at output power ranging from a few milliwatts to several watts. Because of their small size and exceptional efficiency, diode lasers have replaced the HeNe laser in many OEM applications, particularly in those where beam quality and wavelength stability, and unit-to-unit repeatability are not critical. Melles Griot does not manufacture laser diodes! It does manufacture diode laser assemblies that include beam-conditioning optics, automatic power control (APC), temperature control, environmentally sound packaging, and any other features required to meet your exact design goals. |
| Introduction to Helium Cadmium Lasers | The helium cadmium (HeCd) laser is a member of the same laser family as the HeNe, and is the only relatively economical, continuous-wave (cw) source of violet (442-nm) and ultraviolet (325-nm) output. Because of its excellent match to photo polymer and film sensitivity wavelength ranges and its good beam quality, it is used extensively for three-dimensional stereolithography applications, as well as for creating embossed holograms |
| Introduction to Helium Neon Lasers | The helium neon laser was the first laser to be used in volume applications. Currently, there are millions of HeNe lasers in the field, and only the semiconductor diode laser is produced in greater volume. The key to the HeNe's success has been its low cost, small size, long operating life (as much as 50,000 operating hours), and unsurpassed beam quality. HeNe lasers produce milliwatts of output power and are available in a variety of wavelengths ranging from 543 nm (green) to 1.523 μm (infrared). The most common wavelength is the familiar 633 nm (red). These lasers are small, convection cooled, and can be operated from ordinary household power or even from batteries. |
| Introduction to Solid-State Lasers | Diode-pumped solid-state (DPSS) microchip lasers are an exciting new tool for OEM applications that combines the beam quality of a gas laser and the small size and efficiency of a diode laser with single-line output in the blue (473 and 488 nm), green (532 nm), or yellow (561 nm). |
| Laser Accessories Overview | Beam expanders, laser collimator, laser to fiber couplers, fiber optic beam delivery systems, laser beam dumps, adapter holders, focusing optics, precision mounted anamorphic prisms, F-Theta lenses |
| Laser Applications | Laser Applications |
| Laser Guide | Laser Guide |
| Laser Selection Guide | CVI Melles Griot manufactures a wide variety of lasers with over 32 discrete wavelengths ranging from the ultraviolet to the near infrared. We offer three basic types of lasers: gas lasers (HeNe, HeCd, Ion), diode-pumped solid-state (DPSS) lasers, and semiconductor diode lasers assemblies. |
| Laser Types | Laser Types |
| Propagation Characteristics of Laser Beams | Propagation Characteristics of Laser Beams |
| Single Axial Longitudianl Mode Operation | Single Axial Longitudianl Mode Operation |
| Transverse Modes and Mode Controls | Transverse Modes and Mode Controls |
| Tunable Operation | Tunable Operation |