Lunar analog (JSC-1A)

Practical significance

Mare lunar regolith simulant.

Origin

The JSC-1A material was mined from a commercial cinder quarry at Merriam Crater, a volcanic cinder cone located in the San Francisco volcano field near Flagstaff, Arizona. The sample was produced to match the Apollo 14 sample 14163. No chemical processing was performed on the simulant.

Main constituent
Basaltic ash with a high glass content
Particle size Mie: reff (μm)
15.85
Particle size Mie: veff
2.28
Particle size Fraunhofer: reff (μm)
10.50
Particle size Fraunhofer: veff
1.69
Size distribution plot:
JSC-1A size distribution plot
Size distribution table
Particle shape

Irregular

Color
Dark grey
SEM/TEM images:
Lunar analog (JSC-1A) SEM Image
All SEM/TEM images (zip file)
Scattering matrix (1) wavelength in nm
488.00 nm
Scattering matrix (1) table
Scattering matrix (1) plot:
Scattering matrix elements Lunar analog (JSC-1A) - 488 nm
Scattering matrix (2) wavelength in nm
520.00 nm
Scattering matrix (2) table
Scattering matrix (2) plot:
Scattering matrix elements Lunar analog (JSC-1A) - 520 nm
Scattering matrix (3) wavelength in nm
647.00 nm
Scattering matrix (3) table
Scattering matrix (3) plot:
Scattering matrix elements Lunar analog (JSC-1A) - 647 nm
Synthetic scattering matrix (1) wavelength in nm
488.00nm
Synthetic scattering matrix (1) table M
Synthetic scattering matrix (1) table F
Synthetic scattering matrix (2) wavelength in nm
520.00nm
Synthetic scattering matrix (2) table M
Synthetic scattering matrix (2) table F
Synthetic scattering matrix (3) wavelength in nm
647.00nm
Synthetic scattering matrix (3) table M
Synthetic scattering matrix (3) table F
Refractive index

1.65 + i0.003 (Goguen et al. 2010)

Angle range (deg)
[3,177]