All of the relevant technical details about this data can be found in the Astrophysical Journal paper by Silva and Cornell (1992)

This document contains links to PostScript Figures. Direct retrieval of the data can be achieved here:

Retrieve Digital Stellar Spectra Click on the appropriate spectral type. The numbers will be loaded to your current view window. Clicking on the Save As feature will then deposit them to your local disk. There are currently about 30 different spectral types available. Note that the designation V means main sequence, IV means subgiants, III means giants, I means supergiant.

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A9 - O5 main sequence stars These are hot stars, with surface temperatures greater than 10,000 K. As a consequence their spectra are rising into the blue. You should also note the steady increase of the strength of the hydrogen absorption lines.

K5 - F7 main sequence stars Now we see a progression from stars with temperatures around 7000 (F7) to those with temperatures of around 4000 (K5). The strength of the hydrogen lines decreases as collisional excitation in these cooler atmospheres is insufficient to populate excited stats in hydrogen. Metallic lines now become much stronger. In particular, Calcium II H and K (wavelength around 3900 Angstroms), Magnesium I (5150 angstroms - see especially K stars) and Sodium D around 5800 angstroms. As you get to lower temperature proportinately more flux is emitted at longer (redder wavelengths).

G8 -- A7 main sequence stars . Here we see a narrower range of temperatures represented with again the general trend of increasing metallic line strength and decreasing hydrogen line strength. A collection of absorption features, predominately due to Iron, produces a depression, known as the G-band around 4100 angstroms which can be clearly seen in the G-star spectra (try using the zoom option in ghostview for this).

Blue Giants Here are examples of massive stars as they appear when they begin to evolve off the main sequence and head to the red giant branch (movie of this not yet available). Not the extremely well-defined hydrogen absorption lines. As the star expands its surface gravity decreases, relative to what it was on the main-sequence, and this improves the sharpness of the asbsorption lines.

Red Giants Here are example spectra of cool, red giant stellar atmospheres. They look similar to their main sequence counterparts of the same spectral type but again the features are sharper, most notably, the calcium triple at around 8500 angstroms, in which all 3 lines of calcium are much more prominent in Giants than main sequence stars.

Very Cool Giants Here are example spectra of very cool (T < 3500 K) red giant stellar atmospheres. The degree of excitation is so low here that molecules are able to form in these atmospheres. The complex rotational and vibrational energy states of a molecule give rise to depp absorption troughs (called bandheads) that occupy 1-300 angstroms. Missing data in these spectra is due to calibration problems associated with sky subtraction.

Extreme Molecular Band Heads These are the coolest known giants (and likely to be very rich in heavy elements). The bandhead structure should be obvious, particularly longward of 7000 angstroms.

They look similar to their main sequence counterparts of the same spectral type but again the features are sharper, most notably, the calcium triple at around 8500 angstroms, in which all 3 lines of calcium are apparent.

Blue Supergiants

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