1 / 16

Using Reflectance Spectrometry to Identify Compositions

Using Reflectance Spectrometry to Identify Compositions. Credit: NASA/JPL- CalTech /LANL. Credit: NASA/JPL- CalTech. How Do We See Mars?. Our eyes, cameras, and mission instruments use the sunlight reflected off its surface. Spectra Are “Fingerprints”.

nmendoza
Download Presentation

Using Reflectance Spectrometry to Identify Compositions

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Using Reflectance Spectrometry to Identify Compositions Credit: NASA/JPL-CalTech/LANL Credit: NASA/JPL-CalTech

  2. How Do We See Mars? • Our eyes, cameras, and mission instruments use the sunlight reflected off its surface.

  3. Spectra Are “Fingerprints” • Fingerprints can be used to identify individual people Credit: http://www.moillusions.com Credit: http://math-blog.com Credit: http://www.vetmed.vt.edu

  4. Spectra Are “Fingerprints” • Spectra are unique to elements and minerals • Used to identify minerals; rocks Credit: ChemCam/LANL/IRAP/CNES Credit: Univ. of Toronto

  5. Types of Spectra Credit: http://csep10.phys.utk.edu/astr162/lect/light/spectra2.gif

  6. Using the ALTA to take a Spectrum • These rocks are “Mars” rocks that you—like a rover on a mission—are analyzing. Your task it to determine their possible compositions, by comparing the Mars rocks’ spectra to known Earth rocks’ spectra. Credit: Ward’s Scientific

  7. Using the ALTA to take a Spectrum • These rocks are “Mars” rocks that you—like a rover on a mission—are analyzing. Your task it to determine its possible composition, by comparing the Mars rocks’ spectra to known Earth rocks’ spectra. • Buttons on front, LEDs & detector on the back • Push each button on the front and see what happens on the back

  8. Using the ALTA to take a Spectrum • What is the ALTA doing? • Light from diode strikes the surface of the sample • Light reflected off the sample enters the detector • Read-out on the front indicates how much of the light has been reflected (voltage) • Because each ALTA has its own sensitivities, the read-out should be compared to the reflectance of white paper

  9. Taking the Dark Voltage • What happens if you place the ALTA down flat and don’t turn on any of the lights? • You still have a number - ALTA’s photodetector and electronics don’t go to zero. This is your “Dark Voltage”

  10. Using the ALTA to take a Spectrum • Need a large flat surface if possible. • Try not to let outside light into the detector. • Work in groups of 4; one can hold the sample and ALTA, one can press the buttons, one to record the data, etc. • Begin with taking the data for two stacked pieces of white paper.

  11. Terrestrial Spectrum #1

  12. Terrestrial Spectrum #2

  13. Terrestrial Spectrum #3

  14. Terrestrial Spectrum #4

  15. Terrestrial Spectrum #5

  16. Terrestrial Spectrum #6

More Related