B. Begemann et al., ALUMINUM-OXIDE AND THE OPACITY OF OXYGEN-RICH CIRCUMSTELLAR DUST IN THE 12-17 MICRON RANGE, The Astrophysical journal, 476(1), 1997, pp. 199-208
Amorphous alumina (Al2O3) was produced by a sol-gel technique in order
to make available its optical constants for possible astrophysical ap
plications. Gradual annealing showed that the X-ray amorphousness of a
lumina ended somewhere between 723 and 873 K. Above this transition po
int, the structure changes into disordered gamma-Al2O3. At T > 1273 K,
crystalline alpha-Al2O3 (corundum) is formed. Mie calculations show t
hat amorphous alumina exhibits a wide Al-O vibrational band, peaking a
t 11.5-11.8 mu m and having a steep ''blue'' and an extended ''red'' w
ing. It may be an important contributor to the continuous opacity betw
een the silicate bands in oxygen-rich circumstellar envelopes, whereas
it is ruled out for the explanation of the 13 mu m band. An average 1
3 mu m band profile was derived from 51 IRAS low-resolution spectra of
bright Mira stars and semiregular variables. Its shape, which is sati
sfactorily represented by a Lorentz profile, can be reproduced by Mie
calculations with the data of alpha-Al2O3, but not with those of gamma
-Al2O3. The calculations show that the 13 mu m band profile of alpha-A
l2O3 is sensitive to grain shape. If alpha-Al2O3 is the absorber, a se
cond band should be present at 21 mu m. A close correlation was found
between the strengths of the 13 mu m band and the 10 mu m silicate ban
d. It suggests that the 13 mu m band carrier could also be somehow con
nected with silicate dust. Experimental arguments supporting this attr
ibution are presented.