Heidelberg - Jena - Database of Optical Constants (HEJDOC)

E x t r a - t e r r e s t r i a l   m a t e r i a l s


m o o n
state material data range (micron) Temperature (K) reference (and link)
. lunar silicates e infrared - Perry et al. (1972) Moon 4, 315
- lunar soil Reflectance [fig.]
abs.c. [fig.]
0.5-2.5 μm (VIS-IR) - Pieters, Carlé M. et al. (2000) Meteoritics&Planetary Science, vol.35,no.5, pp.1101-1107
- lunar basalts Reflectance [fig.] 0.4-0.9 μm (VIS-IR) - Staid, Matthew I. et al. (2001) Journal of Geophysical Research, Vol. 106, Issue E11, p.27887-27900
- lunar soil k[fig] 0.5-2.5 μm(VIS-IR) - Lawrence,D.J. et al. (2002) Journal of Geophysical Research (Planets), Volume 107, Issue E12, CiteID 5130, DOI 10.1029/2001JE001530
lunar sample Reflectance [fig.]
ext. coeff. [fig.]
0.5-2.5 μm (VIS-IR) - Pieters, CarlĂ© M et al. (2002) Icarus, Vol.155, Issue 2 pp. 285-298
- lunar surface minerals Reflectance [fig.]
n,k [fig.]
0.4 - 2.5 μm (VIS-IR) - Li Shuai et al. (2011) Journal of Geophysical Research, Vol.116, Issue E9, CiteID E09001
- lunar ilmenite Reflectance [fig] 0.2-2 μm (UV-IR) - Lemelin, Myriam et al. (2013) Journal of Geophysical Research: Planets, Volume 118, Issue 12, pp.2582-2593
- lunar samples Reflectance [fig.] 0.5-2.5 μm (VIS-IR) - Weitz, Catherine M. et al. (2017) Journal of Geophysical research: Planets, Volume 122, Issue 10,pp.2013-2033
- lunar soil samples Reflectance [fig] 0.6-2.2 μm (VIS-IR) - Gou,Sheng et al. (2020) Earth and Planetary Science Letters, Volume 544, article id.116378
- lunar samples Reflectance [fig.] 0.5-3 μm (VIS-IR) - Zhang, Xunyu et al. (2021) Earth and Space science, volume 8, Issue 4, article id.e01153
m a r s
- martian dust 0.2-0.35 μm (UVIS) n [fig.] - Pang, K. et al. (1977) Icarus, Volume 30, Issue 1,p.63-74
- ferric minerals (Mars) Refl.[fig.] 0.4-0.8 μm (VIS-NIR) - Bell, James F.,III (1992) Icarus,Volume 100,Issue 2, p.575-597
- mars soil Reflectance [fig.] 0.5-2.5 μm (VIS-IR) - Mustard, John F. et al. (1997) Journal of Geophysical Research, Vol. 102, Issue E11, p.25605-25616
. (Martian) meteorites refl. [fig] 0.7 - 2.7 Schade, Waesch (1999) Meteor. Planet. Sci. 34, 417.
lunar analyse (Clementine mission) Reflectance [fig.] 0.4-1.2 μm (VIS-IR) - Jolliff, Bradley L. (1999) Journal of Geophysical Research, Vol.104, Issue E6,p.14123-14148
- mars Transmission [fig.]
Reflectance [fig.]
0.12 - 0.32 μm (UV)
1-1.7 μm (IR)
- Muller C et al. (2001) Planetary and Space Science, Volume 49, Issue 2, p.165-171
- mars iron oxides Reflectance [fig] 0.4-1.1 μm (VIS-IR) - Fraeman,A.A. et al. (2020) Journal of Geophysical Research: Planets, Volume 125, Issue 9, article id. e06294
o t h e r
. meteor. silicates n,k [table] 0.185 - 0.4 - Egan, Hilgeman (1975) Astron.J. 80, 587.
. meteorites refl.[fig] vis - IR - Salisbury et al. (1975) Modern Geology 5, 115
. meteorites refl.[fig] vis - IR - Gaffey (1976) J. Geophys. Res. 81, 905
. meteorites refl. . - Gaffey, McCord (1978) Sp. Sci. Rev. 21, 555
amor. Orguel, etc. chondrites transm. [fig] 2.5 - 30 15 - 130 Knacke, Kraetschmer (1980) Astron. Astrophys. 92, 281.
art. astron. silicate e1,2 [fig] 0.04 - 1300 - Draine, Lee (1984) Astrophys.J. 285, 89.
art. astron. silicate e1,2 [tab] 0.0228 - 2000 - Draine (1985) Astrophys.J.Suppl. 57, 587.
. stratosphere particles transm.[fig] infrared - Sandford, Walker (1985) ApJ 291, 838
. meteorites refl. vis - IR McFadden (1987) LPI Tech. Rpt. 88-05
. Fe/Ni meteorites refl. (i,.) [fig] 0.5 - 1.8 - Britt, Pieters (1988) in Ryder G. (ed.) 18th Lun. Planet. Conf. Cambr. Univ. Press, p.503.
. Orgueil chondrite abs. [fig] 2.5 - 25 468.15 - 773.15 Wdowiak, Flickinger (1988) Astrophys.J. 328, L75.
. meteoritic enstatite, etc. refl. 0.3 - 2.6 Cloutis et al. (1990) J. Geophys. Res. 95, 281
. CS silicate n,k [fig] 0.2 - 100 - Suh (1991) Astrophys.Sp.Sci. 181, 237.
art. cosmic silicates n,k [f+t] 0.4 - 10000 - Ossenkopf et al. (1992) Astron.Astrophys. 261, 567.
. Allende matrix Qext/a [fig] 2 - 300 - Koike et al. (1993) Mon. Not. Roy. Astron. Soc. 264, 654.
art. astron. silicate e1,2 [fig] 0.001 - 1.24 (103) - Laor, Draine (1993) Astrophys.J. 402, 441.
. meteorite refl. vis - IR - Sunshine et al. (1993) Icarus 105, 79
. meteorite refl. [fig] . - Bishop et al. (1994) Meteoritics 29, 444
art. CS silicate e1,2 [fig] 0.08 - 200 - David, Pegourie (1995) Astron.Astrophys. 293, 833.
. Titan's aerosol n,k . - Coll et al. (1999) DPS Meet. 31, 45.07
art. CS silicates n,k [fig] 0.1 - 1000 μm - Suh (1999) Mon. Not. Roy. Astron. Soc. 304, 389
cryst. meteor. SiC transm. [fig] 2.5 - 16.5 - Andersen et al. (1999) Astron.Astrophys. 343, 933.
. meteor. diamond abs. [fig] UV,IR - Braatz et al. (2000) Meteor.& Planet. Sci. 35, 75.
. IS PAH mix. abs. [fig] 0.05 - inf-ty - Li, Draine (2001) Astrophys. J. 554, 778.
art. astron. silicate . . - Weingartner, Draine (2001) Astrophys. J. 548, 296
cry. Meteorite (meteoritic nano-diamond) mass absorption coefficent k[cm2g-1][fig]
dielectric constants e1 & e2 [fig.]
n, k [Tab.]
0.0202-109.95 (0.12-100) - Mutschke et al. (2004) A&A
cry. meteorite (olivine) absorbance [fig.] 8-16 - Morlok et al. (2006) Planetary and Space Science
. meteorite (zagami) relative reflectance [fig.] 1.67-16.7 (6000-600cm-1) - Palomba et al. (2006) Icarus
cry. Meteorite (focus on olivine investigation) Absorption [fig.] 8-13 - Morlok (2006) Meteoritics & Planetary Science 41
. Meteorite (CAI from the CV chondrites Leoville and Allende) mass absorption coefficent k[cm2g-1][fig]
refl. [fig]
n,k [fig]
6-75 10 - 300 Posch et al. (2007) ApJ
- jarosite
goethite
hematite
Reflectance [fig.] 0.45 - 0.1 μm (VIS-IR) - Farrand, W.H. et al. (2007) Journal of Geophysical Research, Volume 112, Issue E6
- Titan tholins n,k [t+f]
Reflect. [fig.]
Q abs/a [fig.]
7-16 μm (IR) Imanaka, Hiroshi et al. (2012) Icarus, Volume 218, Issue 1, p.247-261
- Corpenicus crater Reflectance [fig] 0.5-3 μm (VIS-IR) - Dhingra, Deepak (2013) Geophysical Research Letters, Volume 40, Issue 6, pp.1043-1048
- meteorite samples Reflectance [fig.] 0.2-25 μm (UV-IR) - Joseph M et al. (2014) Monthly Notices of the Royal Astronomical Society, Vol.437, Issue 1, p.227-240
- Titan tholins n,k [f+t]
Reflectnace [fig.]
0.01-1000 μm (UV-IR) - BrassĂ©, Coralie et al. (2015) Planetary and Space Science, Vol. 109, p.159-174
- meteorites (Johnstown,
St Germain du Pinel,
Kisvarsany)
Reflectance [fig.] 0.5-2.5 μm (UV-IR) - Martikainen, Julia et al. (2018) Journal of Quantitative Spectroscopy and Radiative Transfer, Vol.204,p.144-151
- Ceres n[tab]
Reflectance [fig.]
1-4 μm 300 Kurokawa, H. et al. (2020) eprint arXiv:2011.00157
- meteorites
CV3 , CO3, CR2, UOCs
Reflectance[fig.] 0.5-2.5 μm (UV-IR) - Eschrig, J. et al. (2021) Icarus, Volume 354, article id. 114034
- pellets Allende n,k[fig.]
Transm. [fig.]
1.5-13 μm (IR) - Arnold, Jessica A. et al. (2021) The planetary Science Journal, Volume 2, Issue 2, id.73, 10 pp.
- chondrites, asteroid Reflectance [fig.] 0.35-2.5 μm (VIS-IR) 293.15-1493.15 Sidhu,S. et al. (2023) Icarus, Volume 398, article id. 115522
- asteroid Ryugu samples Transmittance [fig] 2.5-10 μm (IR) - Dartois, Emmanuel et al. (2023) Astronomy&Astrophysics, Volume 671, id. A2, 30pp.
Notes:
state: art. - artificial.
data: e1,2 - dielectric function, n,k - refractive index; [fig] - figure, [tab] - table, [t+f] - table and figure.

| Last Changes: D.S., C.J. |

04.06.2024