Molecular Astrophys Laboratory: Star-Lming Regions in the Outer Galaxy (Q84347): Difference between revisions
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(Removed claim: summary (P836): Molecular astrophycs is the Interdisciplinary usadapting molecules in space to characicas and chemist of astronomical objects.In ancient regions, where elderly like like our Sun are born in Dense, cold coons of dust and gas, molecules are to the only means to study the physical processes at play.Their aptitude and absenteeism are to be key to understand chemical evolution of old and planet material-forming material.This knowledge is essential...) |
(Created claim: summary (P836): Molecular Astrophysics is the interdisciplinary science using molecules in space to characterise physics and chemistry of astronomical objects. In star-forming regions, where stars like our Sun are born in dense, cold cocoons of dust and gas, molecules are often the only means to study the physical processes at play. Their presence and abundances are key to understand chemical evolution of star- and planet-forming material. This knowledge is cru...) |
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Molecular Astrophysics is the interdisciplinary science using molecules in space to characterise physics and chemistry of astronomical objects. In star-forming regions, where stars like our Sun are born in dense, cold cocoons of dust and gas, molecules are often the only means to study the physical processes at play. Their presence and abundances are key to understand chemical evolution of star- and planet-forming material. This knowledge is crucial for understanding how our Solar System, and, ultimately, life on Earth emerged. In this project, we will create the first group in Poland in this new and interdisciplinary discipline that receives enormous attention in the astronomical community and society. We will use the state-of-the-art telescopes to determine the role of environment for star formation. The project is interesting for two companies that will use PI expertise in the infrared detectors and atmospheric models in the development of world-wide networks of telescopes. (English) | |||||||||||||||
| Property / summary: Molecular Astrophysics is the interdisciplinary science using molecules in space to characterise physics and chemistry of astronomical objects. In star-forming regions, where stars like our Sun are born in dense, cold cocoons of dust and gas, molecules are often the only means to study the physical processes at play. Their presence and abundances are key to understand chemical evolution of star- and planet-forming material. This knowledge is crucial for understanding how our Solar System, and, ultimately, life on Earth emerged. In this project, we will create the first group in Poland in this new and interdisciplinary discipline that receives enormous attention in the astronomical community and society. We will use the state-of-the-art telescopes to determine the role of environment for star formation. The project is interesting for two companies that will use PI expertise in the infrared detectors and atmospheric models in the development of world-wide networks of telescopes. (English) / rank | |||||||||||||||
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| Property / summary: Molecular Astrophysics is the interdisciplinary science using molecules in space to characterise physics and chemistry of astronomical objects. In star-forming regions, where stars like our Sun are born in dense, cold cocoons of dust and gas, molecules are often the only means to study the physical processes at play. Their presence and abundances are key to understand chemical evolution of star- and planet-forming material. This knowledge is crucial for understanding how our Solar System, and, ultimately, life on Earth emerged. In this project, we will create the first group in Poland in this new and interdisciplinary discipline that receives enormous attention in the astronomical community and society. We will use the state-of-the-art telescopes to determine the role of environment for star formation. The project is interesting for two companies that will use PI expertise in the infrared detectors and atmospheric models in the development of world-wide networks of telescopes. (English) / qualifier | |||||||||||||||
point in time: 14 October 2020
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Revision as of 12:36, 14 October 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Molecular Astrophys Laboratory: Star-Lming Regions in the Outer Galaxy |
Project in Poland financed by DG Regio |
Statements
2,193,718.75 zloty
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2,193,718.75 zloty
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100.0 percent
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1 February 2019
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31 January 2022
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UNIWERSYTET MIKOŁAJA KOPERNIKA
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Molecular astrophysics is the interdisciplinary science using molecules in space to characterize physics and chemistry of astronomical objects. In star-forming regions, where stars like our Sun are born in dense, cold cocoons of dust and gas, molecules are often the only means to study the physical processes at play. Their presence and abundances are key to understand chemical evolution of star- and planet-forming material. This knowledge is crucial for understanding how our Solar System, and, ultimately, life on Earth emerged. In this project, we will create the first group in Poland in this new and interdisciplinary discipline that receives enormous attention in the astronomical community and society. We will use the state-of-the-art telescopes to determine the role of environment for star formation. The project is interesting for two companies that will use PI expertise in the infrared detectors and atmospheric models in the development of world-wide networks of telescopes. (Polish)
0 references
Molecular Astrophysics is the interdisciplinary science using molecules in space to characterise physics and chemistry of astronomical objects. In star-forming regions, where stars like our Sun are born in dense, cold cocoons of dust and gas, molecules are often the only means to study the physical processes at play. Their presence and abundances are key to understand chemical evolution of star- and planet-forming material. This knowledge is crucial for understanding how our Solar System, and, ultimately, life on Earth emerged. In this project, we will create the first group in Poland in this new and interdisciplinary discipline that receives enormous attention in the astronomical community and society. We will use the state-of-the-art telescopes to determine the role of environment for star formation. The project is interesting for two companies that will use PI expertise in the infrared detectors and atmospheric models in the development of world-wide networks of telescopes. (English)
14 October 2020
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Identifiers
POIR.04.04.00-00-5D21/18
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