4MOST 2011-12
Lead Research Organisation:
University of Cambridge
Department Name: Institute of Astronomy
Abstract
See ST/J002933/1 (4MOST Phase A)
Planned Impact
See ST/J002933/1 (4MOST Phase A)
Organisations
- University of Cambridge (Lead Research Organisation)
- Lund University (Collaboration)
- European Southern Observatory (ESO) (Collaboration)
- Max Planck Society (Collaboration)
- Rutherford Appleton Laboratory (Collaboration)
- Leiden University (Collaboration)
- Heidelberg University (Collaboration)
- Leibniz Association (Collaboration)
- University of Groningen (Collaboration)
- Uppsala University (Collaboration)
- Ludwig Maximilian University of Munich (LMU Munich) (Collaboration)
- Observatory of Paris (Collaboration)
Publications
Banerji M
(2014)
Combining Dark Energy Survey Science Verification data with near-infrared data from the ESO VISTA Hemisphere Survey
in Monthly Notices of the Royal Astronomical Society
De Jong R
(2012)
4MOST: 4-metre multi-object spectroscopic telescope
Gravish Nick
(2012)
Entangled granular media
in arXiv e-prints
Description | This preliminary award funding the beginning of Phase A work for the 4MOST proposal and design. Main outcomes are reported under the subsequent 4MOST Phase A grant. |
Exploitation Route | The work led to a successful proposal. |
Sectors | Other |
Description | The 4MOST project |
Organisation | European Southern Observatory (ESO) |
Country | Germany |
Sector | Charity/Non Profit |
PI Contribution | 4MOST is a large European collaboration to build a major instrument (called 4MOST) for the European Southern Observatory (ESO). Our team in Cambridge contributed to the design study for this instrument. Specifically we were responsible for the wide-field corrector, the acquisition and guiding systems, the wavefront sensors, the overall VISTA telescope model and some of the science planning. The design study successfully led to ESO approving the project to move forward to full construction with a total capital cost of about 16 million euros. Our team played a key role in making this happen. 4MOST will start operating on the VISTA telescope in Chile in 2020. |
Collaborator Contribution | Our partners did the design study work on the rest of the instrument sub-systems (e.g. the fibre positioner, the spectrographs and the optical fibre feeds) and the rest of the science planning. |
Impact | Saviauk, A (July, 2014) The fiber positioner for 4MOST: exploration of an alternative R-? design, SPIE Proceedings Vol. 9151: Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation 9151 , 110820298 (08, 2014) From space to specs: requirements for 4MOST 110820096 (07, 2014) The 4MOST instrument concept overview 084871948125 (12, 2012) 4MOST - 4-metre multi-object spectroscopic telescope 10552613 (07, 2014) Combining Dark Energy Survey Science Verification Data with Near Infrared D... 310450551 (05, 2014) Integrating Mass Scale Spectroscopic Processing |
Start Year | 2011 |
Description | The 4MOST project |
Organisation | Heidelberg University |
Department | Center for Astronomy- Observatory |
Country | Germany |
Sector | Academic/University |
PI Contribution | 4MOST is a large European collaboration to build a major instrument (called 4MOST) for the European Southern Observatory (ESO). Our team in Cambridge contributed to the design study for this instrument. Specifically we were responsible for the wide-field corrector, the acquisition and guiding systems, the wavefront sensors, the overall VISTA telescope model and some of the science planning. The design study successfully led to ESO approving the project to move forward to full construction with a total capital cost of about 16 million euros. Our team played a key role in making this happen. 4MOST will start operating on the VISTA telescope in Chile in 2020. |
Collaborator Contribution | Our partners did the design study work on the rest of the instrument sub-systems (e.g. the fibre positioner, the spectrographs and the optical fibre feeds) and the rest of the science planning. |
Impact | Saviauk, A (July, 2014) The fiber positioner for 4MOST: exploration of an alternative R-? design, SPIE Proceedings Vol. 9151: Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation 9151 , 110820298 (08, 2014) From space to specs: requirements for 4MOST 110820096 (07, 2014) The 4MOST instrument concept overview 084871948125 (12, 2012) 4MOST - 4-metre multi-object spectroscopic telescope 10552613 (07, 2014) Combining Dark Energy Survey Science Verification Data with Near Infrared D... 310450551 (05, 2014) Integrating Mass Scale Spectroscopic Processing |
Start Year | 2011 |
Description | The 4MOST project |
Organisation | Leibniz Association |
Department | Leibniz Institute for Astrophysics Potsdam |
Country | Germany |
Sector | Academic/University |
PI Contribution | 4MOST is a large European collaboration to build a major instrument (called 4MOST) for the European Southern Observatory (ESO). Our team in Cambridge contributed to the design study for this instrument. Specifically we were responsible for the wide-field corrector, the acquisition and guiding systems, the wavefront sensors, the overall VISTA telescope model and some of the science planning. The design study successfully led to ESO approving the project to move forward to full construction with a total capital cost of about 16 million euros. Our team played a key role in making this happen. 4MOST will start operating on the VISTA telescope in Chile in 2020. |
Collaborator Contribution | Our partners did the design study work on the rest of the instrument sub-systems (e.g. the fibre positioner, the spectrographs and the optical fibre feeds) and the rest of the science planning. |
Impact | Saviauk, A (July, 2014) The fiber positioner for 4MOST: exploration of an alternative R-? design, SPIE Proceedings Vol. 9151: Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation 9151 , 110820298 (08, 2014) From space to specs: requirements for 4MOST 110820096 (07, 2014) The 4MOST instrument concept overview 084871948125 (12, 2012) 4MOST - 4-metre multi-object spectroscopic telescope 10552613 (07, 2014) Combining Dark Energy Survey Science Verification Data with Near Infrared D... 310450551 (05, 2014) Integrating Mass Scale Spectroscopic Processing |
Start Year | 2011 |
Description | The 4MOST project |
Organisation | Leiden University |
Department | Leiden Observatory |
Country | Netherlands |
Sector | Academic/University |
PI Contribution | 4MOST is a large European collaboration to build a major instrument (called 4MOST) for the European Southern Observatory (ESO). Our team in Cambridge contributed to the design study for this instrument. Specifically we were responsible for the wide-field corrector, the acquisition and guiding systems, the wavefront sensors, the overall VISTA telescope model and some of the science planning. The design study successfully led to ESO approving the project to move forward to full construction with a total capital cost of about 16 million euros. Our team played a key role in making this happen. 4MOST will start operating on the VISTA telescope in Chile in 2020. |
Collaborator Contribution | Our partners did the design study work on the rest of the instrument sub-systems (e.g. the fibre positioner, the spectrographs and the optical fibre feeds) and the rest of the science planning. |
Impact | Saviauk, A (July, 2014) The fiber positioner for 4MOST: exploration of an alternative R-? design, SPIE Proceedings Vol. 9151: Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation 9151 , 110820298 (08, 2014) From space to specs: requirements for 4MOST 110820096 (07, 2014) The 4MOST instrument concept overview 084871948125 (12, 2012) 4MOST - 4-metre multi-object spectroscopic telescope 10552613 (07, 2014) Combining Dark Energy Survey Science Verification Data with Near Infrared D... 310450551 (05, 2014) Integrating Mass Scale Spectroscopic Processing |
Start Year | 2011 |
Description | The 4MOST project |
Organisation | Ludwig Maximilian University of Munich (LMU Munich) |
Country | Germany |
Sector | Academic/University |
PI Contribution | 4MOST is a large European collaboration to build a major instrument (called 4MOST) for the European Southern Observatory (ESO). Our team in Cambridge contributed to the design study for this instrument. Specifically we were responsible for the wide-field corrector, the acquisition and guiding systems, the wavefront sensors, the overall VISTA telescope model and some of the science planning. The design study successfully led to ESO approving the project to move forward to full construction with a total capital cost of about 16 million euros. Our team played a key role in making this happen. 4MOST will start operating on the VISTA telescope in Chile in 2020. |
Collaborator Contribution | Our partners did the design study work on the rest of the instrument sub-systems (e.g. the fibre positioner, the spectrographs and the optical fibre feeds) and the rest of the science planning. |
Impact | Saviauk, A (July, 2014) The fiber positioner for 4MOST: exploration of an alternative R-? design, SPIE Proceedings Vol. 9151: Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation 9151 , 110820298 (08, 2014) From space to specs: requirements for 4MOST 110820096 (07, 2014) The 4MOST instrument concept overview 084871948125 (12, 2012) 4MOST - 4-metre multi-object spectroscopic telescope 10552613 (07, 2014) Combining Dark Energy Survey Science Verification Data with Near Infrared D... 310450551 (05, 2014) Integrating Mass Scale Spectroscopic Processing |
Start Year | 2011 |
Description | The 4MOST project |
Organisation | Lund University |
Department | Lund Observatory |
Country | Sweden |
Sector | Academic/University |
PI Contribution | 4MOST is a large European collaboration to build a major instrument (called 4MOST) for the European Southern Observatory (ESO). Our team in Cambridge contributed to the design study for this instrument. Specifically we were responsible for the wide-field corrector, the acquisition and guiding systems, the wavefront sensors, the overall VISTA telescope model and some of the science planning. The design study successfully led to ESO approving the project to move forward to full construction with a total capital cost of about 16 million euros. Our team played a key role in making this happen. 4MOST will start operating on the VISTA telescope in Chile in 2020. |
Collaborator Contribution | Our partners did the design study work on the rest of the instrument sub-systems (e.g. the fibre positioner, the spectrographs and the optical fibre feeds) and the rest of the science planning. |
Impact | Saviauk, A (July, 2014) The fiber positioner for 4MOST: exploration of an alternative R-? design, SPIE Proceedings Vol. 9151: Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation 9151 , 110820298 (08, 2014) From space to specs: requirements for 4MOST 110820096 (07, 2014) The 4MOST instrument concept overview 084871948125 (12, 2012) 4MOST - 4-metre multi-object spectroscopic telescope 10552613 (07, 2014) Combining Dark Energy Survey Science Verification Data with Near Infrared D... 310450551 (05, 2014) Integrating Mass Scale Spectroscopic Processing |
Start Year | 2011 |
Description | The 4MOST project |
Organisation | Max Planck Society |
Department | Max Planck Institute For Extraterrestrial Physics (MPE) |
Country | Germany |
Sector | Academic/University |
PI Contribution | 4MOST is a large European collaboration to build a major instrument (called 4MOST) for the European Southern Observatory (ESO). Our team in Cambridge contributed to the design study for this instrument. Specifically we were responsible for the wide-field corrector, the acquisition and guiding systems, the wavefront sensors, the overall VISTA telescope model and some of the science planning. The design study successfully led to ESO approving the project to move forward to full construction with a total capital cost of about 16 million euros. Our team played a key role in making this happen. 4MOST will start operating on the VISTA telescope in Chile in 2020. |
Collaborator Contribution | Our partners did the design study work on the rest of the instrument sub-systems (e.g. the fibre positioner, the spectrographs and the optical fibre feeds) and the rest of the science planning. |
Impact | Saviauk, A (July, 2014) The fiber positioner for 4MOST: exploration of an alternative R-? design, SPIE Proceedings Vol. 9151: Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation 9151 , 110820298 (08, 2014) From space to specs: requirements for 4MOST 110820096 (07, 2014) The 4MOST instrument concept overview 084871948125 (12, 2012) 4MOST - 4-metre multi-object spectroscopic telescope 10552613 (07, 2014) Combining Dark Energy Survey Science Verification Data with Near Infrared D... 310450551 (05, 2014) Integrating Mass Scale Spectroscopic Processing |
Start Year | 2011 |
Description | The 4MOST project |
Organisation | Observatory of Paris |
Country | France |
Sector | Academic/University |
PI Contribution | 4MOST is a large European collaboration to build a major instrument (called 4MOST) for the European Southern Observatory (ESO). Our team in Cambridge contributed to the design study for this instrument. Specifically we were responsible for the wide-field corrector, the acquisition and guiding systems, the wavefront sensors, the overall VISTA telescope model and some of the science planning. The design study successfully led to ESO approving the project to move forward to full construction with a total capital cost of about 16 million euros. Our team played a key role in making this happen. 4MOST will start operating on the VISTA telescope in Chile in 2020. |
Collaborator Contribution | Our partners did the design study work on the rest of the instrument sub-systems (e.g. the fibre positioner, the spectrographs and the optical fibre feeds) and the rest of the science planning. |
Impact | Saviauk, A (July, 2014) The fiber positioner for 4MOST: exploration of an alternative R-? design, SPIE Proceedings Vol. 9151: Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation 9151 , 110820298 (08, 2014) From space to specs: requirements for 4MOST 110820096 (07, 2014) The 4MOST instrument concept overview 084871948125 (12, 2012) 4MOST - 4-metre multi-object spectroscopic telescope 10552613 (07, 2014) Combining Dark Energy Survey Science Verification Data with Near Infrared D... 310450551 (05, 2014) Integrating Mass Scale Spectroscopic Processing |
Start Year | 2011 |
Description | The 4MOST project |
Organisation | Rutherford Appleton Laboratory |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | 4MOST is a large European collaboration to build a major instrument (called 4MOST) for the European Southern Observatory (ESO). Our team in Cambridge contributed to the design study for this instrument. Specifically we were responsible for the wide-field corrector, the acquisition and guiding systems, the wavefront sensors, the overall VISTA telescope model and some of the science planning. The design study successfully led to ESO approving the project to move forward to full construction with a total capital cost of about 16 million euros. Our team played a key role in making this happen. 4MOST will start operating on the VISTA telescope in Chile in 2020. |
Collaborator Contribution | Our partners did the design study work on the rest of the instrument sub-systems (e.g. the fibre positioner, the spectrographs and the optical fibre feeds) and the rest of the science planning. |
Impact | Saviauk, A (July, 2014) The fiber positioner for 4MOST: exploration of an alternative R-? design, SPIE Proceedings Vol. 9151: Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation 9151 , 110820298 (08, 2014) From space to specs: requirements for 4MOST 110820096 (07, 2014) The 4MOST instrument concept overview 084871948125 (12, 2012) 4MOST - 4-metre multi-object spectroscopic telescope 10552613 (07, 2014) Combining Dark Energy Survey Science Verification Data with Near Infrared D... 310450551 (05, 2014) Integrating Mass Scale Spectroscopic Processing |
Start Year | 2011 |
Description | The 4MOST project |
Organisation | University of Groningen |
Country | Netherlands |
Sector | Academic/University |
PI Contribution | 4MOST is a large European collaboration to build a major instrument (called 4MOST) for the European Southern Observatory (ESO). Our team in Cambridge contributed to the design study for this instrument. Specifically we were responsible for the wide-field corrector, the acquisition and guiding systems, the wavefront sensors, the overall VISTA telescope model and some of the science planning. The design study successfully led to ESO approving the project to move forward to full construction with a total capital cost of about 16 million euros. Our team played a key role in making this happen. 4MOST will start operating on the VISTA telescope in Chile in 2020. |
Collaborator Contribution | Our partners did the design study work on the rest of the instrument sub-systems (e.g. the fibre positioner, the spectrographs and the optical fibre feeds) and the rest of the science planning. |
Impact | Saviauk, A (July, 2014) The fiber positioner for 4MOST: exploration of an alternative R-? design, SPIE Proceedings Vol. 9151: Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation 9151 , 110820298 (08, 2014) From space to specs: requirements for 4MOST 110820096 (07, 2014) The 4MOST instrument concept overview 084871948125 (12, 2012) 4MOST - 4-metre multi-object spectroscopic telescope 10552613 (07, 2014) Combining Dark Energy Survey Science Verification Data with Near Infrared D... 310450551 (05, 2014) Integrating Mass Scale Spectroscopic Processing |
Start Year | 2011 |
Description | The 4MOST project |
Organisation | Uppsala University |
Country | Sweden |
Sector | Academic/University |
PI Contribution | 4MOST is a large European collaboration to build a major instrument (called 4MOST) for the European Southern Observatory (ESO). Our team in Cambridge contributed to the design study for this instrument. Specifically we were responsible for the wide-field corrector, the acquisition and guiding systems, the wavefront sensors, the overall VISTA telescope model and some of the science planning. The design study successfully led to ESO approving the project to move forward to full construction with a total capital cost of about 16 million euros. Our team played a key role in making this happen. 4MOST will start operating on the VISTA telescope in Chile in 2020. |
Collaborator Contribution | Our partners did the design study work on the rest of the instrument sub-systems (e.g. the fibre positioner, the spectrographs and the optical fibre feeds) and the rest of the science planning. |
Impact | Saviauk, A (July, 2014) The fiber positioner for 4MOST: exploration of an alternative R-? design, SPIE Proceedings Vol. 9151: Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation 9151 , 110820298 (08, 2014) From space to specs: requirements for 4MOST 110820096 (07, 2014) The 4MOST instrument concept overview 084871948125 (12, 2012) 4MOST - 4-metre multi-object spectroscopic telescope 10552613 (07, 2014) Combining Dark Energy Survey Science Verification Data with Near Infrared D... 310450551 (05, 2014) Integrating Mass Scale Spectroscopic Processing |
Start Year | 2011 |