Scientific Contribution of Sharjah-Sat-1 to X-ray Observations

Emrah Kalemci; Antonios Manousakis; Ilias Fernini; Hamid Al Naimiy; Ayhan Bozkurt; A. Rüstem Aslan; A. Mürteza Altingün; Kaan Veziroǧlu; Refik Yalçin; Kaya Gökalp; Milad Diba; Ali Yaşar; Efe Oztaban; Boǧaç Karabulut; Onur Oztekin; Yousuf Farouk; Ibrahim Alsabt; Tarifa AlKaabi; Muhammad Mubasshir Shaikh; Sahith Reddy Madara

Scientific Contribution of Sharjah-Sat-1 to X-ray Observations

Emrah Kalemci, Antonios Manousakis, Ilias Fernini, Hamid Al Naimiy, Ayhan Bozkurt, A. Rüstem Aslan, A. Mürteza Altingün, Kaan Veziroǧlu, Refik Yalçin, Kaya Gökalp, Milad Diba, Ali Yaşar, Efe Oztaban, Boǧaç Karabulut, Onur Oztekin, Yousuf Farouk, Ibrahim Alsabt, Tarifa AlKaabi, Muhammad Mubasshir Shaikh, Sahith Reddy Madara

Department of Astronautical Engineering

Research output: Contribution to journal › Conference article › peer-review

10 Citations (Scopus)

Abstract

Sharjah-Sat-1 is currently being developed as a collaborative research project among the Sharjah Academy for Astronomy, Space Sciences, and Technology (SAASST), University of Sharjah (UoS), Istanbul Technical University (ITU), and Sabanci University (SU). A 3U CubeSat design has been adopted with a dual payload onboard: (i) an improved X-ray Detector (iXRD) and (ii) a system of two optical cameras. The mission's primary scientific targets are the bright, hard X-ray sources in our Galaxy and the solar coronal holes. A complimentary payload, consisting of the two optical cameras, will serve as a low-resolution remote sensing application. This project's main technological aim is to develop a CubeSat, from A to Z, operational in the electromagnetic spectrum's hard X-ray regime. The Sharjah-Sat-1 would be the first CubeSat mission to be developed by the SAASST team and UoS students to not only design, fabricate, test, and launch the CubeSat itself but also building the capacities and expertise necessary for future CubeSat missions as well. The anticipated launch is planned for late Q2-2022. The primary science payload onboard is the iXRD (developed by Sabanci University) with a pixelated CdZnTe-based crystal as the active material and a Tungsten collimator with a field of view of 4.26 degrees. The energy range is from 20 keV to 200 keV with a target spectral resolution of 6 keV at 60 keV. Its primary science goal is to observe the very bright galactic hard X-ray sources, transient and persistent. Black hole candidates and pulsars can emit radiation up to a few 100 keVs, making them potential targets. Besides, solar observations will be conducted to study hard X-ray spectra of flares and coronal holes. Other opportunity targets are transient bright events, such as gamma-ray bursts (GRB) and magnetar bursts. A complete in-orbit background analysis has been conducted. While the detector's effective area is only 6.5 cm², it is expected to reach a sensitivity of 60 mCrab in a single day in 20 keV-100 keV band assuming 600s exposure each orbit.

Original language	English
Journal	Proceedings of the International Astronautical Congress, IAC
Volume	B4
Publication status	Published - 2021
Event	28th IAA Symposium on Small Satellite Missions 2021 at the 72nd International Astronautical Congress, IAC 2021 - Dubai, United Arab Emirates Duration: 25 Oct 2021 → 29 Oct 2021

Bibliographical note

Publisher Copyright:
© 2021 International Astronautical Federation, IAF. All rights reserved.

Funding

EK acknowledges support of Tubitak Project 116F151 on the development of the improved X-ray Detector (iXRD).

Keywords

Compact Objects
High-Energy Astrophysics
Multiwavelength
Observations
Simulations
X-rays

Cite this

Kalemci, E., Manousakis, A., Fernini, I., Al Naimiy, H., Bozkurt, A., Aslan, A. R., Altingün, A. M., Veziroǧlu, K., Yalçin, R., Gökalp, K., Diba, M., Yaşar, A., Oztaban, E., Karabulut, B., Oztekin, O., Farouk, Y., Alsabt, I., AlKaabi, T., Shaikh, M. M., & Madara, S. R. (2021). Scientific Contribution of Sharjah-Sat-1 to X-ray Observations. Proceedings of the International Astronautical Congress, IAC, B4.

@article{a3324c6153f54229bb90870a7dd937f6,

title = "Scientific Contribution of Sharjah-Sat-1 to X-ray Observations",

abstract = "Sharjah-Sat-1 is currently being developed as a collaborative research project among the Sharjah Academy for Astronomy, Space Sciences, and Technology (SAASST), University of Sharjah (UoS), Istanbul Technical University (ITU), and Sabanci University (SU). A 3U CubeSat design has been adopted with a dual payload onboard: (i) an improved X-ray Detector (iXRD) and (ii) a system of two optical cameras. The mission's primary scientific targets are the bright, hard X-ray sources in our Galaxy and the solar coronal holes. A complimentary payload, consisting of the two optical cameras, will serve as a low-resolution remote sensing application. This project's main technological aim is to develop a CubeSat, from A to Z, operational in the electromagnetic spectrum's hard X-ray regime. The Sharjah-Sat-1 would be the first CubeSat mission to be developed by the SAASST team and UoS students to not only design, fabricate, test, and launch the CubeSat itself but also building the capacities and expertise necessary for future CubeSat missions as well. The anticipated launch is planned for late Q2-2022. The primary science payload onboard is the iXRD (developed by Sabanci University) with a pixelated CdZnTe-based crystal as the active material and a Tungsten collimator with a field of view of 4.26 degrees. The energy range is from 20 keV to 200 keV with a target spectral resolution of 6 keV at 60 keV. Its primary science goal is to observe the very bright galactic hard X-ray sources, transient and persistent. Black hole candidates and pulsars can emit radiation up to a few 100 keVs, making them potential targets. Besides, solar observations will be conducted to study hard X-ray spectra of flares and coronal holes. Other opportunity targets are transient bright events, such as gamma-ray bursts (GRB) and magnetar bursts. A complete in-orbit background analysis has been conducted. While the detector's effective area is only 6.5 cm2, it is expected to reach a sensitivity of 60 mCrab in a single day in 20 keV-100 keV band assuming 600s exposure each orbit.",

keywords = "Compact Objects, High-Energy Astrophysics, Multiwavelength, Observations, Simulations, X-rays",

author = "Emrah Kalemci and Antonios Manousakis and Ilias Fernini and {Al Naimiy}, Hamid and Ayhan Bozkurt and Aslan, {A. R{\"u}stem} and Alting{\"u}n, {A. M{\"u}rteza} and Kaan Veziroǧlu and Refik Yal{\c c}in and Kaya G{\"o}kalp and Milad Diba and Ali Ya{\c s}ar and Efe Oztaban and Boǧa{\c c} Karabulut and Onur Oztekin and Yousuf Farouk and Ibrahim Alsabt and Tarifa AlKaabi and Shaikh, {Muhammad Mubasshir} and Madara, {Sahith Reddy}",

note = "Publisher Copyright: {\textcopyright} 2021 International Astronautical Federation, IAF. All rights reserved.; 28th IAA Symposium on Small Satellite Missions 2021 at the 72nd International Astronautical Congress, IAC 2021 ; Conference date: 25-10-2021 Through 29-10-2021",

year = "2021",

language = "English",

volume = "B4",

journal = "Proceedings of the International Astronautical Congress, IAC",

issn = "0074-1795",

publisher = "International Astronautical Federation, IAF",

}

Kalemci, E, Manousakis, A, Fernini, I, Al Naimiy, H, Bozkurt, A, Aslan, AR, Altingün, AM, Veziroǧlu, K, Yalçin, R, Gökalp, K, Diba, M, Yaşar, A, Oztaban, E, Karabulut, B, Oztekin, O, Farouk, Y, Alsabt, I, AlKaabi, T, Shaikh, MM & Madara, SR 2021, 'Scientific Contribution of Sharjah-Sat-1 to X-ray Observations', Proceedings of the International Astronautical Congress, IAC, vol. B4.

TY - JOUR

T1 - Scientific Contribution of Sharjah-Sat-1 to X-ray Observations

AU - Kalemci, Emrah

AU - Manousakis, Antonios

AU - Fernini, Ilias

AU - Al Naimiy, Hamid

AU - Bozkurt, Ayhan

AU - Aslan, A. Rüstem

AU - Altingün, A. Mürteza

AU - Veziroǧlu, Kaan

AU - Yalçin, Refik

AU - Gökalp, Kaya

AU - Diba, Milad

AU - Yaşar, Ali

AU - Oztaban, Efe

AU - Karabulut, Boǧaç

AU - Oztekin, Onur

AU - Farouk, Yousuf

AU - Alsabt, Ibrahim

AU - AlKaabi, Tarifa

AU - Shaikh, Muhammad Mubasshir

AU - Madara, Sahith Reddy

PY - 2021

Y1 - 2021

N2 - Sharjah-Sat-1 is currently being developed as a collaborative research project among the Sharjah Academy for Astronomy, Space Sciences, and Technology (SAASST), University of Sharjah (UoS), Istanbul Technical University (ITU), and Sabanci University (SU). A 3U CubeSat design has been adopted with a dual payload onboard: (i) an improved X-ray Detector (iXRD) and (ii) a system of two optical cameras. The mission's primary scientific targets are the bright, hard X-ray sources in our Galaxy and the solar coronal holes. A complimentary payload, consisting of the two optical cameras, will serve as a low-resolution remote sensing application. This project's main technological aim is to develop a CubeSat, from A to Z, operational in the electromagnetic spectrum's hard X-ray regime. The Sharjah-Sat-1 would be the first CubeSat mission to be developed by the SAASST team and UoS students to not only design, fabricate, test, and launch the CubeSat itself but also building the capacities and expertise necessary for future CubeSat missions as well. The anticipated launch is planned for late Q2-2022. The primary science payload onboard is the iXRD (developed by Sabanci University) with a pixelated CdZnTe-based crystal as the active material and a Tungsten collimator with a field of view of 4.26 degrees. The energy range is from 20 keV to 200 keV with a target spectral resolution of 6 keV at 60 keV. Its primary science goal is to observe the very bright galactic hard X-ray sources, transient and persistent. Black hole candidates and pulsars can emit radiation up to a few 100 keVs, making them potential targets. Besides, solar observations will be conducted to study hard X-ray spectra of flares and coronal holes. Other opportunity targets are transient bright events, such as gamma-ray bursts (GRB) and magnetar bursts. A complete in-orbit background analysis has been conducted. While the detector's effective area is only 6.5 cm2, it is expected to reach a sensitivity of 60 mCrab in a single day in 20 keV-100 keV band assuming 600s exposure each orbit.

AB - Sharjah-Sat-1 is currently being developed as a collaborative research project among the Sharjah Academy for Astronomy, Space Sciences, and Technology (SAASST), University of Sharjah (UoS), Istanbul Technical University (ITU), and Sabanci University (SU). A 3U CubeSat design has been adopted with a dual payload onboard: (i) an improved X-ray Detector (iXRD) and (ii) a system of two optical cameras. The mission's primary scientific targets are the bright, hard X-ray sources in our Galaxy and the solar coronal holes. A complimentary payload, consisting of the two optical cameras, will serve as a low-resolution remote sensing application. This project's main technological aim is to develop a CubeSat, from A to Z, operational in the electromagnetic spectrum's hard X-ray regime. The Sharjah-Sat-1 would be the first CubeSat mission to be developed by the SAASST team and UoS students to not only design, fabricate, test, and launch the CubeSat itself but also building the capacities and expertise necessary for future CubeSat missions as well. The anticipated launch is planned for late Q2-2022. The primary science payload onboard is the iXRD (developed by Sabanci University) with a pixelated CdZnTe-based crystal as the active material and a Tungsten collimator with a field of view of 4.26 degrees. The energy range is from 20 keV to 200 keV with a target spectral resolution of 6 keV at 60 keV. Its primary science goal is to observe the very bright galactic hard X-ray sources, transient and persistent. Black hole candidates and pulsars can emit radiation up to a few 100 keVs, making them potential targets. Besides, solar observations will be conducted to study hard X-ray spectra of flares and coronal holes. Other opportunity targets are transient bright events, such as gamma-ray bursts (GRB) and magnetar bursts. A complete in-orbit background analysis has been conducted. While the detector's effective area is only 6.5 cm2, it is expected to reach a sensitivity of 60 mCrab in a single day in 20 keV-100 keV band assuming 600s exposure each orbit.

KW - Compact Objects

KW - High-Energy Astrophysics

KW - Multiwavelength

KW - Observations

KW - Simulations

KW - X-rays

UR - http://www.scopus.com/inward/record.url?scp=85127592792&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:85127592792

SN - 0074-1795

VL - B4

JO - Proceedings of the International Astronautical Congress, IAC

JF - Proceedings of the International Astronautical Congress, IAC

T2 - 28th IAA Symposium on Small Satellite Missions 2021 at the 72nd International Astronautical Congress, IAC 2021

Y2 - 25 October 2021 through 29 October 2021

ER -

Scientific Contribution of Sharjah-Sat-1 to X-ray Observations

Abstract

Bibliographical note

Funding

Keywords

Other files and links

Fingerprint

Cite this