SIR-2
The SIR-2 instrument is a redesigned, highly compact, monolithic grating, near infrared spectrometer chosen to be a payload on the Indian Chandrayaan-1 satellite. It is an ESA project, and is built by Max Planck Institute for Solar System Research, Polish Academy of Science and University of Bergen.
Mission[edit]
The mission of the instrument is to map the lunar surface in the near infrared spectrum from 0.9 - 2.4 μm with an unprecedented resolution of 6 nm. The purpose of this is to obtain information on the mineral composition of the moon, which in turn will help getting insight into a number of questions:
- What is the cause of the global asymmetry of the moon, which on the far side has a thicker crust and lacks the Mare structures which are characteristic for the near side?
- What was the early thermal evolution of the moon?
- What is the vertical and lateral structure of the lunar crust and how did it develop?
- What is the composition and structure of the lunar mantle?
- Why is the moon different from other planets and how do planets work in terms of surface processes, heat transfer, and geologic evolution?
- Are the Apollo geophysical measurements representative of the moon, or are they only valid for the small regions around the Apollo landing sites?
Similar missions[edit]
The instrument is a redesigned version of SIR, which was flown on board the SMART-1 technology satellite. SIR performed the same mission, but had a problem with dark current induced noise due to varying temperatures caused by differences in heat flux from the light and dark side of the Moon. SIR-2 will attempt to improve this, mainly by using a detector with an embedded thermoelectric cooler and a digital controller to keep the detector temperature stable. This will stabilize the dark current noise, making it simple to subtract it since it will have an almost constant level.
Electronics[edit]
The control unit of SIR-2 is based on a System-on-a-chip design, minimizing the size and power consumption of the unit. A central component is the radiation hardened RTAX2000S Axcelerator FPGA, containing a LEON (LEON3FT) SPARC compliant CPU, communications interface Intellectual property cores, and custom interfaces to the rest of the instrument.
References[edit]
- SIR-2 on Chandrayaan-1 - First results
- An in-depth look at the lunar crater Copernicus: Exposed mineralogy by high-resolution near-infrared spectroscopy
- Study of Spectral Characteristics of the Central Peak Region of Tycho Crater Using the SIR-2 Data On-Board Chandrayaan-1
- SIR-2 as an important geological investigative tool
- Data from the SIR-2 Experiment on Chandrayaan-1
- A Near-Infrared Reflectance Survey Across Lunar Crater Aristoteles
- Study of Spectral Characteristics of the Central Peak Region of Tycho Crater Using the SIR-2 Data On-Board Chandrayaan-1