Spectrographs/Lecture

A spectrograph is an apparatus for photographing or otherwise recording spectra.

"The spectrograph [on the right] (named MERIS, for MEdium Resolution Imager Spectrograph) is attached directly to a small telescope. So, the entrance slit of the spectrograph coincides with the focal plane of the telescope."^[1]

"The CCD camera is a 768 x 512 pixels Audine - (KAF-0401E Kodak CCD - pixel of 9x9 microns). The CCD is Peltier-cooled. For 768 pixels along the dispersion direction the mean reciprocal dispersion is approximately 1.4 Å/pixel (1200 groove/mm grating used for this Vega observation) and 2.9 Å/pixel (for an optional 600 groove/mm grating). We use 30 mm x 30 mm gratings from Edmund Industrial Optics with a 5000 A blaze (ref. NT46-077 for the 1200 g/mm and ref. NT46-077 for the 600 g/mm). The width of the grating is greater than the projected beam diameter for F/D telescope faster as 6.5. The grating is mounted on a rotating stage with a fine adjustment for center wavelength (it is possible to observe zero-order image for field identification and center the target). We use 35 mm photographic camera lens for the collimator and camera objective functions. The collimator is a Nikkor 135 mm focal length objective f/2.8 model. We select a Nikkor 50 mm f/1.4 model for the camera objective. The entrance aperture size of the lenses is matched to the diameter of the optical beam for unvignetting with a F/D=6.5 telescope. The distance between the grating surface and the entrance pupil of the camera objective is about 60 mm and the angle between collimator axis and camera axis is 38°. The entrance slit is adjustable by the use of a micrometer. Onto the telescope the spectrograph is mounted with its long slit oriented north-south (optimal for spectral resolution and flux consideration relative to the periodic error of the RA drive). The total spectrograph weight is of 3.1 kg (CCD camera included)."^[1]

"The measured spectral resolution is 1900 @ 6000 Å (i.e. 3.2 angstroms FWHM) for the 1.4 Å/pixel dispersion (this present work) and 1000 @ 6000 Å for the 2.9 Å/pixel (i.e. 6 angstroms FWHM). The chromatism of the optical layout is reasonably low from 4500 to 6800 Å. Refocus is necessary for spectral band outside this spectral range."^[1] Template:Clear

Def. a "visual representation of the spectrum of a celestial body's radiation"^[2] is called a spectrogram.

On the right is a spectrogram of dolphin vocalizations: chirps, clicks and harmonizing visible as Λs, vertical lines and horizontal striations, respectively.

Spectrograms are used extensively in the fields of music, sonar, radar, speech processing,^[3] and seismology. Template:Clear

Template:Main Def. an "optical instrument for measuring the absorption of light by chemical substances; typically it will plot a graph of absorption versus wavelength or frequency, and the patterns produced are used to identify the substances present, and their internal structure"^[4] is called a spectrometer. Template:Clear

Def. a "measurement of the wavelength of electromagnetic radiation, especially any of several techniques used to analyze the structure of molecules;^[5] the measurement of spectra of things other than radiation, such as the masses of molecules and their breakdown products"^[6] is called spectrometry.

Def. a "machine for recording spectra, producing spectrograms"^[7] is called a spectrograph. Template:Clear

Template:Main Def. a "process of using a spectrometer to produce a spectrograph"^[8] is called spectrography.

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A "prism is a transparent optical element with flat, polished surfaces that refract light [over a range of wavelengths]. At least two of the flat surfaces must have an angle [α] between them. The exact angles between the surfaces depend on the application. The traditional geometrical shape is that of a triangular prism with a triangular base and rectangular sides, and in colloquial use "prism" usually refers to this type."^[9]

"Ray angle deviation and dispersion through a prism can be determined by tracing a sample ray through the element and using Snell's law at each interface. For the prism shown at right, the indicated angles are given by"^[9]

${\displaystyle \begin{array}{cc}\theta {\text{'}}_0& =\text{arcsin}(\frac{n_0}{n_1}\sin {\theta }_0)\\ {\theta }_1& =\alpha -\theta {\text{'}}_0\\ \theta {\text{'}}_1& =\text{arcsin}(\frac{n_1}{n_2}\sin {\theta }_1)\\ {\theta }_2& =\theta {\text{'}}_1-\alpha \end{array}}$.

"For a prism in air ${\displaystyle n_0=n_2\simeq 1}$. Defining ${\displaystyle n=n_1}$, the deviation angle ${\displaystyle \delta }$ is given by"^[9]

${\displaystyle \delta ={\theta }_0+{\theta }_2={\theta }_0+\text{arcsin}(n\sin [\alpha -\text{arcsin}(\frac{1}{n}\sin {\theta }_0)\left]\right)-\alpha }$

"If the angle of incidence ${\displaystyle {\theta }_0}$ and prism apex angle ${\displaystyle \alpha }$ are both small, ${\displaystyle \sin \theta \approx \theta }$ and ${\displaystyle \text{arcsin}x\approx x}$ if the angles are expressed in radians. This allows the nonlinear equation in the deviation angle ${\displaystyle \delta }$ to be approximated by"^[9]

${\displaystyle \delta \approx {\theta }_0-\alpha +\left(n\right[(\alpha -\frac{1}{n}{\theta }_0)\left]\right)={\theta }_0-\alpha +n\alpha -{\theta }_0=(n-1)\alpha .}$

"The deviation angle depends on wavelength through n, so for a thin prism the deviation angle varies with wavelength according to"^[9]

${\displaystyle \delta (\lambda )\approx [n(\lambda )-1]\alpha }$.

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Template:Main Def. an "optical instrument used for spectrographic analysis"^[10] is called a spectroscope.

Def.

1. a "scientific study of spectra"^[11] or
2. a "use of spectrometers in chemical analysis"

is called spectroscopy.

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1. A spectrograph that uses something to replace a prism exist.

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• Spectrographs
• Spectrum of Vega

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Template:Reflist

• International Astronomical Union
• NASA/IPAC Extragalactic Database - NED
• NASA's National Space Science Data Center
• Office of Scientific & Technical Information
• The SAO/NASA Astrophysics Data System
• Scirus for scientific information only advanced search
• SDSS Quick Look tool: SkyServer
• SIMBAD Astronomical Database
• SIMBAD Web interface, Harvard alternate
• Spacecraft Query at NASA
• Universal coordinate converter

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