Measurement and analysis of sky brightness in tae-3: A case study in Antarctica

Thesis (M.Sc.) -- İstanbul Technical University, Institute of Science and Technology, 2020 Astronomers and atmospheric scientists usually use light from the sky to analyze the universe and atmosphere we live in. Light travels a long way in the atmosphere, scattered by aerosols and molecules. As a re...

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Bibliographic Details
Main Author: Küçük, Furkan Ali
Other Authors: Kahya, Ceyhan, 637054, Atmospheric Sciences
Format: Thesis
Language:English
Published: Institute of Science and Technology 2022
Subjects:
astronomy and space sciences
meteorology
Antarctic
Horseshoe Island
Antarc*
Antarctica
Antarktika
Online Access:http://hdl.handle.net/11527/20110
id ftistanbultuniv:oai:polen.itu.edu.tr:11527/20110
record_format openpolar
spelling ftistanbultuniv:oai:polen.itu.edu.tr:11527/20110 2023-05-15T13:49:10+02:00 Measurement and analysis of sky brightness in tae-3: A case study in Antarctica Tae-3 kapsamında gökyüzü parlaklığı ölçümü ve analizi: Antarktika için vaka çalışması Küçük, Furkan Ali Kahya, Ceyhan 637054 Atmospheric Sciences 2022-05-30T13:44:38Z application/pdf http://hdl.handle.net/11527/20110 en eng Institute of Science and Technology http://hdl.handle.net/11527/20110 astronomy and space sciences meteorology Thesis 2022 ftistanbultuniv 2022-10-20T20:02:03Z Thesis (M.Sc.) -- İstanbul Technical University, Institute of Science and Technology, 2020 Astronomers and atmospheric scientists usually use light from the sky to analyze the universe and atmosphere we live in. Light travels a long way in the atmosphere, scattered by aerosols and molecules. As a result, the natural glow in the sky deteriorates and increases. Sky brightness is caused by two main sources as artificial and natural. Basic parameters are the sunlight reflected from the moon and the earth, the diffusion of star lights in the atmosphere, the Zodiac Light, and the Aurora. The secondary parameters are artificial resources. Incorrect urban lighting planning is one of the biggest reasons for this. To observe the fainter stars and small changes in the sky, it is necessary to have a very dark sky and the sky brightness should be less than 19 magnitudes. The night-sky brightness can be used as an environmental assessment indicator to characterize the relative intensity of light pollution. The night-sky brightness was measured and monitored around Antarctica Horseshoe Island using a portable light-sensing device called "The Sky Quality Meter" for about a month in TAE-3 (Turkish Antarctic Expedition 3) that took place between 03.02.2019-01.03.2019. These measurements are taken between 62 and 67 degrees Southern Latitudes. The Sky Quality Meter (SQM) is a device that can instantaneously measure the brightness of the night sky in units of mag/arcsec², the international unit for measuring sky brightness. The positions of moonrise/moonset, sunrise/sunset, civil/nautical, and astronomical twilight which cause poor sky quality when observing the sky are calculated. The cloud cover and temperature, to study astronomical and meteorological parameters were measured as well. Before the start of each phase, training was provided to all parameters on the procedures in using the SQMs to take night sky brightness data. For the measurement results, the lowest value of the device is expected as mag/arcsec². This value can ... Thesis Antarc* Antarctic Antarctica Antarktika Horseshoe Island ITU Academic Open Archive Antarctic Horseshoe Island ENVELOPE(-67.189,-67.189,-67.836,-67.836)
institution Open Polar
collection ITU Academic Open Archive
op_collection_id ftistanbultuniv
language English
topic astronomy and space sciences
meteorology
spellingShingle astronomy and space sciences
meteorology
Küçük, Furkan Ali
Measurement and analysis of sky brightness in tae-3: A case study in Antarctica
topic_facet astronomy and space sciences
meteorology
description Thesis (M.Sc.) -- İstanbul Technical University, Institute of Science and Technology, 2020 Astronomers and atmospheric scientists usually use light from the sky to analyze the universe and atmosphere we live in. Light travels a long way in the atmosphere, scattered by aerosols and molecules. As a result, the natural glow in the sky deteriorates and increases. Sky brightness is caused by two main sources as artificial and natural. Basic parameters are the sunlight reflected from the moon and the earth, the diffusion of star lights in the atmosphere, the Zodiac Light, and the Aurora. The secondary parameters are artificial resources. Incorrect urban lighting planning is one of the biggest reasons for this. To observe the fainter stars and small changes in the sky, it is necessary to have a very dark sky and the sky brightness should be less than 19 magnitudes. The night-sky brightness can be used as an environmental assessment indicator to characterize the relative intensity of light pollution. The night-sky brightness was measured and monitored around Antarctica Horseshoe Island using a portable light-sensing device called "The Sky Quality Meter" for about a month in TAE-3 (Turkish Antarctic Expedition 3) that took place between 03.02.2019-01.03.2019. These measurements are taken between 62 and 67 degrees Southern Latitudes. The Sky Quality Meter (SQM) is a device that can instantaneously measure the brightness of the night sky in units of mag/arcsec², the international unit for measuring sky brightness. The positions of moonrise/moonset, sunrise/sunset, civil/nautical, and astronomical twilight which cause poor sky quality when observing the sky are calculated. The cloud cover and temperature, to study astronomical and meteorological parameters were measured as well. Before the start of each phase, training was provided to all parameters on the procedures in using the SQMs to take night sky brightness data. For the measurement results, the lowest value of the device is expected as mag/arcsec². This value can ...
author2 Kahya, Ceyhan
637054
Atmospheric Sciences
format Thesis
author Küçük, Furkan Ali
author_facet Küçük, Furkan Ali
author_sort Küçük, Furkan Ali
title Measurement and analysis of sky brightness in tae-3: A case study in Antarctica
title_short Measurement and analysis of sky brightness in tae-3: A case study in Antarctica
title_full Measurement and analysis of sky brightness in tae-3: A case study in Antarctica
title_fullStr Measurement and analysis of sky brightness in tae-3: A case study in Antarctica
title_full_unstemmed Measurement and analysis of sky brightness in tae-3: A case study in Antarctica
title_sort measurement and analysis of sky brightness in tae-3: a case study in antarctica
publisher Institute of Science and Technology
publishDate 2022
url http://hdl.handle.net/11527/20110
long_lat ENVELOPE(-67.189,-67.189,-67.836,-67.836)
geographic Antarctic
Horseshoe Island
geographic_facet Antarctic
Horseshoe Island
genre Antarc*
Antarctic
Antarctica
Antarktika
Horseshoe Island
genre_facet Antarc*
Antarctic
Antarctica
Antarktika
Horseshoe Island
op_relation http://hdl.handle.net/11527/20110
_version_ 1766250963536969728

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