衍射光栅物理
衍射光栅物理
Diffraction Grating Physics
Grating Equation
Dispersion, Bandpass, and Resolution
By fixing the incidence angle α in the grating equation and differentiating with respect to λ, the angular dispersion (D) or change in diffraction angle per unit wavelength can be determined as:
Types of Gratings
Gratings are produced by two methods, ruling and holography. A high-precision ruling engine creates a master grating by burnishing grooves with a diamond tool against a thin coating of evaporated metal applied to a surface. Replication of the master grating enables the production of ruled gratings, which comprise the majority of diffraction gratings used in dispersive spectrometers. These gratings can be blazed for specific wavelengths, generally have high efficiency, and are often used in systems requiring high resolution. Echelle gratings are a type of ruled grating that are coarse, i.e., low groove density, have high-blaze angles, and use high diffraction orders. The virtue of an echelle grating lies in its ability to provide high dispersion and resolution in a compact system design. Overlapping of diffraction orders is an important limitation of echelle gratings requiring some type of order separation typically provided by a prism or another grating. Holographic gratings are created using a sinusoidal interference pattern which is etched into glass. These gratings have lower scatter than ruled gratings, are designed to minimize aberrations, and can have high efficiency for a single plane of polarization. Gratings can be reflective or transmissive, and the surface of a grating can either be planar or concave. Planar gratings generally give higher resolution over a wide wavelength range while concave gratings can function as both a dispersing and focusing element in a spectrometer.
Related Topics
Diffraction Gratings
- Diffraction Grating Selection Guide
- Laser Tuning With Diffraction Gratings
- Pulse Compression and Stretching with Diffraction Gratings
- Telecom/Datacom With Diffraction Gratings
- Astronomy With Diffraction Gratings
Optical Components
Optical Systems