spectrographs (original) (raw)

Definition: instruments for spectrally analyzing light, based on a polychromator and a multi-channel photodetector

Alternative term: spectroradiometers

Categories: article belongs to category general optics general optics, article belongs to category light detection and characterization light detection and characterization, article belongs to category optical metrology optical metrology

optical metrology instruments
- spectrometers
  * spectrographs
  * spectrophotometers
  * mid-infrared spectrometers
  * UV spectrometers
  * X-ray spectrometers
optical metrology instruments
- autocollimators
- beam profilers
- colorimeters
- colorimetry
- frequency metrology
- laser beam characterization
- optical energy meters
- optical frequency standards
- optical power meters
- optical power monitors
- optical profilometers
- optical spectrum analyzers
- optical time-domain reflectometers
- powermeters
- photometry
- polarimeters
- refractometers
- spectrographs
- spectrometers
- spectrophotometers
- wavemeters
- (more topics)

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DOI: 10.61835/tim Cite the article: BibTex BibLaTex plain text HTML Link to this page! LinkedIn

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📦 For purchasing spectrographs, use the RP Photonics Buyer's Guide — an expert-curated directory for finding all relevant suppliers, which also offers advanced purchasing assistance.

What are Spectrographs?

Spectrographs, also called spectroradiometers, are optical instruments which belong to the class of spectrometers. A spectrograph contains a fixed diffraction grating or some other kind of polychromator (a device which can spatially separate different wavelength components of light) and some kind of multi-channel photodetector (e.g. a photodiode array) for measuring the spectral light intensities. (Early versions of spectrographs used photographic plates for recording spectra.) That way one can measure the optical spectrum of a light source. In contrast, some other kinds of spectrometers use a rotating grating and/or a moving detector. Compared with those, a spectrograph often has a simpler setup and can acquire spectra faster, but may not reach the same performance e.g. in terms of spectral resolution or width of the covered spectral region.

The operation principles of spectrographs are explained in the article on spectrometers.

Applications of Spectrographs

Some typical applications of spectrographs are:

Stellar and solar spectrographs are used for analyzing in detail the radiation from stars. For example, one can measure the locations and strengths of certain absorption lines (Fraunhofer lines) for measuring chemical compositions and relative velocities.
With a laboratory spectrograph, one may spectrally analyze fluorescence light e.g. from gas discharges or from active optical fibers.
In spectral phase interferometry, one often requires a spectrograph for measuring the positions of minima and maxima in optical spectra. An intensity calibration is often not required.
Spectrographs are also used for other methods of pulse characterization, for example for frequency-resolved optical gating.

Suppliers

Sponsored content: The RP Photonics Buyer's Guide contains 23 suppliers for spectrographs. Among them:

⚙ hardware

We can design and manufacture in volume custom spectrographs incorporating original or replicated gratings. Let us precisely assemble easy-to-integrate modules for your instruments.

⚙ hardware

EVEREST, by UltraFast Innovations (UFI®), is a soft X-ray/XUV/VUV spectrograph that features aberration-corrected flat-field imaging and is available with three gratings covering the spectral ranges 1–17 nm (1240–73 eV), 5–80 nm (248–15.5 eV) and 24–200 nm (51.7–6.2 eV). To maximize light collection, the spectrometer can be used without an entrance slit over a variety of source distances, with 3–17 nm, 10–80 nm and 24–200 nm spectral coverage. Its modular design is able to match different experimental geometries and configurations. It features an integrated slit holder, gate valve, and filter insertion unit, as well as a 3-axis motorized grating positioning.

⚙ hardware

Zolix offers various kinds of spectrographs. For example, our ultra-high-performance scientific research CCD spectrograph features outstanding spectral image calibration, high wavelength accuracy, and excellent stray light suppression. It consists of a high-resolution spectrometer and TE-cooled CCD. With its research-grade performance, it is an ideal choice for measuring emission spectrum, fluorescence spectrum and Raman spectrum.

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