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Hadarou Sare

Majored in Planetary Science
Buffalo State, Class of 2017
From Buffalo, NY
NASA-SBAG member, Graduate student in planetary science,Founder and CEO at SpaceTIS (Space and Terrestrial Innovative Solutions). I am Engineer, Scientist, Researcher, Inventor and Innovator, Reviewer for NASA Planetary Defense Goal documents, NASA MEPAG member
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Hadarou Sare Graduates from Buffalo State

Hadarou Sare of Brooklyn, NY graduated from Buffalo State with a B.A. in geology in spring 2017. Buffalo State is a State University of New York (SUNY) college located in Buffalo, New York. Buffal...

July, 12 2017 - Verified by Buffalo State
Sare Hadarou Participated in Student Research Conference at Buffalo State

Sare Hadarou of Buffalo, NY presented original research to the campus community and the public, thanks to an opportunity provided by the Undergraduate Research Office at Buffalo State. The annual S...

June, 21 2017 - Verified by Buffalo State
Hadarou Sare was recognized for earning a spot on an honors list
Present research (talk) at Buffalo Geological Society GEM and MINERAL show One of the most important goals of Mars exploration is to obtain data that will help determine whether life ever existed there. In this project, I have looked at the mineralogy near fissures (fractures) in the Nili Fossae region to determine if and how water-related mineralogy can be related to the fissures. By understanding a relationship like this, I might be able to apply it to other areas on Mars with fissures to learn whether the fissures might be good targets to search for life on Mars. Areas with fissures are of interest because we could potentially find evidence of past water in rocks or minerals such as mafic minerals, hydrated minerals, phyllosilicates, and hydroxylated minerals. Nili Fossae is an area with fractured, basaltic bedrock and mineralogy that points to at least some alteration by water. It also contains the largest amount of carbonate material on Mars, maybe related to the alteration. It is therefore essential to determine characteristics of different rocks and minerals in Nili Fossae in order to justify the hypothesis that we could find rocks and/or minerals containing organic chemicals, which would suggest that life existed in areas with fissures. I used images from the THEMIS (Thermal Emission Imaging System) instrument and GeoInformatics software such as ERDAS IMAGINE to study mineralogy in Nili Fossae by computing band ratio images. Conclusions about the locations of water-related minerals using these images agree with other studies using data from other instruments.
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Hadarou Sare was recognized for enrolling
Analyze a stranger rock to determine if it is a meteorite. I use an old technology at Buffalo Museum of science to analyze in detail a non label rock because my mentor and me was wondering if it could be a meteorite. Finally, after three(3) weeks of study, we realize after many diffrents microscopic analyze and comparaison that this rock was not a meteorite.
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Hadarou Sare was recognized for enrolling
Develop algorithms to detect the year to year behavior of dust devil tracks within Malea Planum. I present my preliminar research at GSA southeastern meeting on April 12, 2018 in Tennessee.
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Hadarou Sare was recognized for enrolling
Internship at Buffalo Museum of Science : METEORITE COLLECTION, DATA ENTRY, GEOLOGY INTERNSHIP
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Hadarou Sare was recognized for earning a spot on an honors list
Work for NASA worked on Landing site for the 2020 Mars Rover Mission. Title: Implication of fractures in determining area of potential life on Mars, Cartography of mineralogy in Nili Fossae https://marsnext.jpl.nasa.gov/workshops/wkshp_2017_02.cfm
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Hadarou Sare was recognized for earning a spot on the Dean's List
Meeting at NASA GODDARD SPACE FLIGHT CENTER IN MARYLAND/ NASA-SBAG Create SpaceTIS (Space and Terrestrial Innovative Solution) , a non-profit organization with the first mission to design, built a Cubesat and send it to space(around asteroids) for asteroids water ressources, asteroids mining and asteroids vegetation traces detection. SpaceTIS will also design and build a specific computer software which will be use to extract the exact information scientists will be looking for from asteroids or others planet and comets. This technology can be use on planets, comets or on any other object in our solar system
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Yearly Change in Dust Devil Tracks within Malea Planum, Mars
Develop algorithms to detect the year to year behavior of dust devil tracks within Malea Planum. I present my preliminar research at GSA southeastern meeting on April 12, 2018 in Tennessee.
Research Projects
Developing a new method to mine asteroids
I am developing a 6U cube equipped with visible(VIS), near infrared (NIR), and medium infrared wavelength (MWIR) that will go to low earth orbit in geosynchronous orbit to detect any space based threat. This project will focus on identifying specific asteroid and explore them for future robotic mining mission. The cube sat will collect datas and the data will be analyzed with image processing algorithms I am currently developing.
Research Projects

Achievement Graduation

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