Angela Bautista
Research Internship at Max Planck Institute for Physics- Claim this Profile
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English Professional working proficiency
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German Limited working proficiency
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Spanish Native or bilingual proficiency
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Bio
Experience
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Max Planck Institute for Physics
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Germany
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Research
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1 - 100 Employee
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Research Internship
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Jan 2023 - Present
-Robotization of 11-inch optical telescope for calibrating the atmospheric transmission during MAGIC very large zenith angle (VLZA) observations. -Robotization of 11-inch optical telescope for calibrating the atmospheric transmission during MAGIC very large zenith angle (VLZA) observations.
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Max Planck Institute for Physics
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Germany
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Research
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1 - 100 Employee
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Research Internship
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Sep 2022 - Nov 2022
- Development of a theoretical model of the dust adhesion mechanism on MAGIC and LST-1 mirrors at the first stage of the soiling process. - The performance of nanocoatings as a way to reduce dust deposit on mirrors was evaluated using reflectivity measurements of nanocoated mirrors - Development of a theoretical model of the dust adhesion mechanism on MAGIC and LST-1 mirrors at the first stage of the soiling process. - The performance of nanocoatings as a way to reduce dust deposit on mirrors was evaluated using reflectivity measurements of nanocoated mirrors
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Universidad Nacional de Colombia
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Colombia
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Higher Education
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700 & Above Employee
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Research Internship
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Aug 2020 - Nov 2020
- Use of a segmentation and identification algorithm to analyze G-band and Calcium image sequences derived from the Solar Optical Telescope (SOT) onboard the Hinode Mission. -The size distribution for small-scale magnetic features (MBPs) in the solar photosphere and chromosphere was determined, the evolution of their physical properties was studied using MHD-Wavelike disturbances. -Team project developed under a collaboration agreement with the University of Graz, Austria. - Use of a segmentation and identification algorithm to analyze G-band and Calcium image sequences derived from the Solar Optical Telescope (SOT) onboard the Hinode Mission. -The size distribution for small-scale magnetic features (MBPs) in the solar photosphere and chromosphere was determined, the evolution of their physical properties was studied using MHD-Wavelike disturbances. -Team project developed under a collaboration agreement with the University of Graz, Austria.
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Education
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The University of Bonn
Master of Science - MS, Astrophysics -
Universidad Nacional de Colombia
Bachelor's degree, Physics