Imaging at high angular resolution of stellar surfaces and close environment :: Evry Schatzman School 2017 /
Imaging at high angular resolution (HRA) is a flourishing discipline. High performance instruments like the spectro-polarimeter SPHERE at VLT/ESO has recently been implemented. A harvest of splendid results is continuously coming from interferometry with PIONIER, MATISSE, and now GRAVITY (all at VLTI...
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| Weitere Verfasser: | , , |
| Format: | Elektronisch Tagungsbericht E-Book |
| Sprache: | English |
| Veröffentlicht: |
[Les Ulis, France] :
EDP Sciences,
2019.
|
| Schriftenreihe: | EDP sciences proceedings.
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Zusammenfassung: | Imaging at high angular resolution (HRA) is a flourishing discipline. High performance instruments like the spectro-polarimeter SPHERE at VLT/ESO has recently been implemented. A harvest of splendid results is continuously coming from interferometry with PIONIER, MATISSE, and now GRAVITY (all at VLTI/ESO), VEGA and JouFlu (CHARA), and at longer wavelengths with ALMA at VLTI/ESO and NOEMA/IRAM. The future is already underway with the very close launch of JWST/NASA, and the development of ELT at ESO. HRA provides a unique way to study regions of stellar formation, proto-planetary discs as well as the surfaces of stars and their environments. This volume offers lectures given by world experts in the field during the Evry Schatzman School on Stellar Physics (EES 2017) held in Roscoff, France. The addressed topics include a course of introduction to optical/IR interferometry covering the history and basic principles, a course on diffraction-dominated observational astronomy, and a course presenting the principles and instrumentation of optical long baseline interferometry. This book will be a valuable reference for researchers and students in the coming years. |
| Beschreibung: | 1 online resource |
| Bibliographie: | Includes bibliographical references. |
| ISBN: | 9782759823734 2759823733 |
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| 520 | |a Imaging at high angular resolution (HRA) is a flourishing discipline. High performance instruments like the spectro-polarimeter SPHERE at VLT/ESO has recently been implemented. A harvest of splendid results is continuously coming from interferometry with PIONIER, MATISSE, and now GRAVITY (all at VLTI/ESO), VEGA and JouFlu (CHARA), and at longer wavelengths with ALMA at VLTI/ESO and NOEMA/IRAM. The future is already underway with the very close launch of JWST/NASA, and the development of ELT at ESO. HRA provides a unique way to study regions of stellar formation, proto-planetary discs as well as the surfaces of stars and their environments. This volume offers lectures given by world experts in the field during the Evry Schatzman School on Stellar Physics (EES 2017) held in Roscoff, France. The addressed topics include a course of introduction to optical/IR interferometry covering the history and basic principles, a course on diffraction-dominated observational astronomy, and a course presenting the principles and instrumentation of optical long baseline interferometry. This book will be a valuable reference for researchers and students in the coming years. | ||
| 588 | 0 | |a On-line resource; title from PDF title page (EBSCO, viewed September 27, 2019) | |
| 505 | 0 | |a Intro; Evry Schatzman School 2017; List of participants; Contents; Preface; Diffraction-dominated observational astronomy; 1 Introduction; 2 Images in astronomy; 3 Coherence properties of light; 4 Diffraction-dominated imaging; 5 High-contrast imaging; 6 Atmospheric turbulence and Adaptive Optics; 7 Extreme adaptive optics; 8 Calibration of biases; 9 Focal-plane based wavefront control?; 10 Conclusion; References; Introduction to optical/IR interferometry: history and basic principles; 1 Introduction; 2 Some reminders; 3 Brief history about the measurements of stellar diameters | |
| 505 | 8 | |a 4 Light coherence5 Some examples of interferometers; 6 Three important theorems and some applications; References; Optical Long Baseline Interferometry; 1 Introduction; 2 Angular diameter and coherence of the wavefront; 3 Angular diameter and Object-Image relationship; 4 A direct imaging technique; 5 The reality of the coherence; 6 Practical considerations for the implementation of an interferometer; 7 A modern panorama of optical long baseline interferometry; 8 The study of stellar surface and their close environment usinginterferometry; 9 Steps to the future; References | |
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| 650 | 0 | |a Interferometry |v Congresses. | |
| 650 | 0 | |a Telescopes |v Congresses. | |
| 650 | 0 | |a Resolution (Optics) |v Congresses. | |
| 650 | 0 | |a Optics, Adaptive |v Congresses. | |
| 650 | 0 | |a Astronomy |v Observations |v Congresses. | |
| 650 | 6 | |a Imagerie en astronomie |v Congrès. | |
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| 650 | 6 | |a Télescopes |v Congrès. | |
| 650 | 6 | |a Résolution (Optique) |v Congrès. | |
| 650 | 6 | |a Optique adaptative |v Congrès. | |
| 650 | 6 | |a Astronomie |v Observations |v Congrès. | |
| 650 | 7 | |a SCIENCE |x Physics |x Astrophysics. |2 bisacsh | |
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| 650 | 7 | |a Interferometry |2 fast | |
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| 700 | 1 | |a Nardetto, Nicolas, |e editor. | |
| 700 | 1 | |a Lebreton, Yveline, |e editor. |0 http://id.loc.gov/authorities/names/n2018049346 | |
| 700 | 1 | |a Lagadec, Eric, |e editor. | |
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| contents | Intro; Evry Schatzman School 2017; List of participants; Contents; Preface; Diffraction-dominated observational astronomy; 1 Introduction; 2 Images in astronomy; 3 Coherence properties of light; 4 Diffraction-dominated imaging; 5 High-contrast imaging; 6 Atmospheric turbulence and Adaptive Optics; 7 Extreme adaptive optics; 8 Calibration of biases; 9 Focal-plane based wavefront control?; 10 Conclusion; References; Introduction to optical/IR interferometry: history and basic principles; 1 Introduction; 2 Some reminders; 3 Brief history about the measurements of stellar diameters 4 Light coherence5 Some examples of interferometers; 6 Three important theorems and some applications; References; Optical Long Baseline Interferometry; 1 Introduction; 2 Angular diameter and coherence of the wavefront; 3 Angular diameter and Object-Image relationship; 4 A direct imaging technique; 5 The reality of the coherence; 6 Practical considerations for the implementation of an interferometer; 7 A modern panorama of optical long baseline interferometry; 8 The study of stellar surface and their close environment usinginterferometry; 9 Steps to the future; References |
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| series2 | EDP sciences proceedings |
| spelling | Evry Schatzman School (2017 : Roscoff, France) Imaging at high angular resolution of stellar surfaces and close environment : Evry Schatzman School 2017 / Nicolas Nardetto, Yveline Lebreton, and Eric Lagadec, eds. [Les Ulis, France] : EDP Sciences, 2019. 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier EDP sciences proceedings Includes bibliographical references. Imaging at high angular resolution (HRA) is a flourishing discipline. High performance instruments like the spectro-polarimeter SPHERE at VLT/ESO has recently been implemented. A harvest of splendid results is continuously coming from interferometry with PIONIER, MATISSE, and now GRAVITY (all at VLTI/ESO), VEGA and JouFlu (CHARA), and at longer wavelengths with ALMA at VLTI/ESO and NOEMA/IRAM. The future is already underway with the very close launch of JWST/NASA, and the development of ELT at ESO. HRA provides a unique way to study regions of stellar formation, proto-planetary discs as well as the surfaces of stars and their environments. This volume offers lectures given by world experts in the field during the Evry Schatzman School on Stellar Physics (EES 2017) held in Roscoff, France. The addressed topics include a course of introduction to optical/IR interferometry covering the history and basic principles, a course on diffraction-dominated observational astronomy, and a course presenting the principles and instrumentation of optical long baseline interferometry. This book will be a valuable reference for researchers and students in the coming years. On-line resource; title from PDF title page (EBSCO, viewed September 27, 2019) Intro; Evry Schatzman School 2017; List of participants; Contents; Preface; Diffraction-dominated observational astronomy; 1 Introduction; 2 Images in astronomy; 3 Coherence properties of light; 4 Diffraction-dominated imaging; 5 High-contrast imaging; 6 Atmospheric turbulence and Adaptive Optics; 7 Extreme adaptive optics; 8 Calibration of biases; 9 Focal-plane based wavefront control?; 10 Conclusion; References; Introduction to optical/IR interferometry: history and basic principles; 1 Introduction; 2 Some reminders; 3 Brief history about the measurements of stellar diameters 4 Light coherence5 Some examples of interferometers; 6 Three important theorems and some applications; References; Optical Long Baseline Interferometry; 1 Introduction; 2 Angular diameter and coherence of the wavefront; 3 Angular diameter and Object-Image relationship; 4 A direct imaging technique; 5 The reality of the coherence; 6 Practical considerations for the implementation of an interferometer; 7 A modern panorama of optical long baseline interferometry; 8 The study of stellar surface and their close environment usinginterferometry; 9 Steps to the future; References Imaging systems in astronomy Congresses. Interferometry Congresses. Telescopes Congresses. Resolution (Optics) Congresses. Optics, Adaptive Congresses. Astronomy Observations Congresses. Imagerie en astronomie Congrès. Interférométrie Congrès. Télescopes Congrès. Résolution (Optique) Congrès. Optique adaptative Congrès. Astronomie Observations Congrès. SCIENCE Physics Astrophysics. bisacsh Astronomy fast Imaging systems in astronomy fast Interferometry fast Optics, Adaptive fast Resolution (Optics) fast Telescopes fast Conference papers and proceedings fast Nardetto, Nicolas, editor. Lebreton, Yveline, editor. http://id.loc.gov/authorities/names/n2018049346 Lagadec, Eric, editor. has work: Imaging at high angular resolution of stellar surfaces and close environment (Text) https://id.oclc.org/worldcat/entity/E39PCGRkp99YBvQvCw7MxBw3PP https://id.oclc.org/worldcat/ontology/hasWork EDP sciences proceedings. FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2256989 Volltext CBO01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2256989 Volltext |
| spellingShingle | Imaging at high angular resolution of stellar surfaces and close environment : Evry Schatzman School 2017 / EDP sciences proceedings. Intro; Evry Schatzman School 2017; List of participants; Contents; Preface; Diffraction-dominated observational astronomy; 1 Introduction; 2 Images in astronomy; 3 Coherence properties of light; 4 Diffraction-dominated imaging; 5 High-contrast imaging; 6 Atmospheric turbulence and Adaptive Optics; 7 Extreme adaptive optics; 8 Calibration of biases; 9 Focal-plane based wavefront control?; 10 Conclusion; References; Introduction to optical/IR interferometry: history and basic principles; 1 Introduction; 2 Some reminders; 3 Brief history about the measurements of stellar diameters 4 Light coherence5 Some examples of interferometers; 6 Three important theorems and some applications; References; Optical Long Baseline Interferometry; 1 Introduction; 2 Angular diameter and coherence of the wavefront; 3 Angular diameter and Object-Image relationship; 4 A direct imaging technique; 5 The reality of the coherence; 6 Practical considerations for the implementation of an interferometer; 7 A modern panorama of optical long baseline interferometry; 8 The study of stellar surface and their close environment usinginterferometry; 9 Steps to the future; References Imaging systems in astronomy Congresses. Interferometry Congresses. Telescopes Congresses. Resolution (Optics) Congresses. Optics, Adaptive Congresses. Astronomy Observations Congresses. Imagerie en astronomie Congrès. Interférométrie Congrès. Télescopes Congrès. Résolution (Optique) Congrès. Optique adaptative Congrès. Astronomie Observations Congrès. SCIENCE Physics Astrophysics. bisacsh Astronomy fast Imaging systems in astronomy fast Interferometry fast Optics, Adaptive fast Resolution (Optics) fast Telescopes fast |
| title | Imaging at high angular resolution of stellar surfaces and close environment : Evry Schatzman School 2017 / |
| title_auth | Imaging at high angular resolution of stellar surfaces and close environment : Evry Schatzman School 2017 / |
| title_exact_search | Imaging at high angular resolution of stellar surfaces and close environment : Evry Schatzman School 2017 / |
| title_full | Imaging at high angular resolution of stellar surfaces and close environment : Evry Schatzman School 2017 / Nicolas Nardetto, Yveline Lebreton, and Eric Lagadec, eds. |
| title_fullStr | Imaging at high angular resolution of stellar surfaces and close environment : Evry Schatzman School 2017 / Nicolas Nardetto, Yveline Lebreton, and Eric Lagadec, eds. |
| title_full_unstemmed | Imaging at high angular resolution of stellar surfaces and close environment : Evry Schatzman School 2017 / Nicolas Nardetto, Yveline Lebreton, and Eric Lagadec, eds. |
| title_short | Imaging at high angular resolution of stellar surfaces and close environment : |
| title_sort | imaging at high angular resolution of stellar surfaces and close environment evry schatzman school 2017 |
| title_sub | Evry Schatzman School 2017 / |
| topic | Imaging systems in astronomy Congresses. Interferometry Congresses. Telescopes Congresses. Resolution (Optics) Congresses. Optics, Adaptive Congresses. Astronomy Observations Congresses. Imagerie en astronomie Congrès. Interférométrie Congrès. Télescopes Congrès. Résolution (Optique) Congrès. Optique adaptative Congrès. Astronomie Observations Congrès. SCIENCE Physics Astrophysics. bisacsh Astronomy fast Imaging systems in astronomy fast Interferometry fast Optics, Adaptive fast Resolution (Optics) fast Telescopes fast |
| topic_facet | Imaging systems in astronomy Congresses. Interferometry Congresses. Telescopes Congresses. Resolution (Optics) Congresses. Optics, Adaptive Congresses. Astronomy Observations Congresses. Imagerie en astronomie Congrès. Interférométrie Congrès. Télescopes Congrès. Résolution (Optique) Congrès. Optique adaptative Congrès. Astronomie Observations Congrès. SCIENCE Physics Astrophysics. Astronomy Imaging systems in astronomy Interferometry Optics, Adaptive Resolution (Optics) Telescopes Conference papers and proceedings |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2256989 |
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