Ian Morison
The Art of Astrophotography
Ian Morison
The Art of Astrophotography
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This book provides a step-by-step guide of how anyone can capture and produce beautiful astronomical images, for beginners and professionals alike.
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This book provides a step-by-step guide of how anyone can capture and produce beautiful astronomical images, for beginners and professionals alike.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 284
- Erscheinungstermin: 2. Februar 2017
- Englisch
- Abmessung: 246mm x 189mm x 16mm
- Gewicht: 555g
- ISBN-13: 9781316618417
- ISBN-10: 1316618412
- Artikelnr.: 46511711
- Verlag: Cambridge University Press
- Seitenzahl: 284
- Erscheinungstermin: 2. Februar 2017
- Englisch
- Abmessung: 246mm x 189mm x 16mm
- Gewicht: 555g
- ISBN-13: 9781316618417
- ISBN-10: 1316618412
- Artikelnr.: 46511711
Ian Morison is Emeritus Gresham Professor of Astronomy at the University of Manchester's Jodrell Bank Observatory. In addition to his academic credentials, he is a lifelong amateur astronomer, a founding member and patron of Macclesfield Astronomy Society and a past president of the UK's Society for Popular Astronomy, one of the country's largest amateur astronomy organisations. He has written four previous popular astronomy books, as well as an undergraduate astronomy textbook.
1. Imaging star trails
2. Imaging a constellation with a DSLR and tripod
3. Imaging the Milky Way with a DSLR and tracking mount
4. Imaging the Moon with a compact camera or smartphone
5. Imaging the Moon with a DSLR
6. Imaging the Pleiades Cluster with a DSLR and small refractor
7. Imaging the Orion Nebula, M42, with a modified Canon DSLR
8. Telescopes and their accessories for use in astroimaging
9. Towards stellar excellence
10. Cooling a DSLR camera to reduce sensor noise
11. Imaging the North American and Pelican Nebulae
12. Combating light pollution - the bane of astrophotographers
13. Imaging planets with an astronomical video camera or Canon DSLR
14. Video imaging the Moon with a webcam or DSLR
15. Imaging the Sun in white light
16. Imaging the Sun in the light of its H-alpha emission
17. Imaging meteors
18. Imaging comets
19. Using a cooled 'one shot colour' camera
20. Using a cooled monochrome CCD camera
21. LRGB colour imaging
22. Narrow band colour imaging
Appendix A. Telescopes for imaging
Appendix B. Telescope mounts
Appendix C. The effects of the atmosphere
Appendix D. Auto guiding
Appendix E. Image calibration
Appendix F. Practical aspects of astroimaging.
2. Imaging a constellation with a DSLR and tripod
3. Imaging the Milky Way with a DSLR and tracking mount
4. Imaging the Moon with a compact camera or smartphone
5. Imaging the Moon with a DSLR
6. Imaging the Pleiades Cluster with a DSLR and small refractor
7. Imaging the Orion Nebula, M42, with a modified Canon DSLR
8. Telescopes and their accessories for use in astroimaging
9. Towards stellar excellence
10. Cooling a DSLR camera to reduce sensor noise
11. Imaging the North American and Pelican Nebulae
12. Combating light pollution - the bane of astrophotographers
13. Imaging planets with an astronomical video camera or Canon DSLR
14. Video imaging the Moon with a webcam or DSLR
15. Imaging the Sun in white light
16. Imaging the Sun in the light of its H-alpha emission
17. Imaging meteors
18. Imaging comets
19. Using a cooled 'one shot colour' camera
20. Using a cooled monochrome CCD camera
21. LRGB colour imaging
22. Narrow band colour imaging
Appendix A. Telescopes for imaging
Appendix B. Telescope mounts
Appendix C. The effects of the atmosphere
Appendix D. Auto guiding
Appendix E. Image calibration
Appendix F. Practical aspects of astroimaging.
1. Imaging star trails
2. Imaging a constellation with a DSLR and tripod
3. Imaging the Milky Way with a DSLR and tracking mount
4. Imaging the Moon with a compact camera or smartphone
5. Imaging the Moon with a DSLR
6. Imaging the Pleiades Cluster with a DSLR and small refractor
7. Imaging the Orion Nebula, M42, with a modified Canon DSLR
8. Telescopes and their accessories for use in astroimaging
9. Towards stellar excellence
10. Cooling a DSLR camera to reduce sensor noise
11. Imaging the North American and Pelican Nebulae
12. Combating light pollution - the bane of astrophotographers
13. Imaging planets with an astronomical video camera or Canon DSLR
14. Video imaging the Moon with a webcam or DSLR
15. Imaging the Sun in white light
16. Imaging the Sun in the light of its H-alpha emission
17. Imaging meteors
18. Imaging comets
19. Using a cooled 'one shot colour' camera
20. Using a cooled monochrome CCD camera
21. LRGB colour imaging
22. Narrow band colour imaging
Appendix A. Telescopes for imaging
Appendix B. Telescope mounts
Appendix C. The effects of the atmosphere
Appendix D. Auto guiding
Appendix E. Image calibration
Appendix F. Practical aspects of astroimaging.
2. Imaging a constellation with a DSLR and tripod
3. Imaging the Milky Way with a DSLR and tracking mount
4. Imaging the Moon with a compact camera or smartphone
5. Imaging the Moon with a DSLR
6. Imaging the Pleiades Cluster with a DSLR and small refractor
7. Imaging the Orion Nebula, M42, with a modified Canon DSLR
8. Telescopes and their accessories for use in astroimaging
9. Towards stellar excellence
10. Cooling a DSLR camera to reduce sensor noise
11. Imaging the North American and Pelican Nebulae
12. Combating light pollution - the bane of astrophotographers
13. Imaging planets with an astronomical video camera or Canon DSLR
14. Video imaging the Moon with a webcam or DSLR
15. Imaging the Sun in white light
16. Imaging the Sun in the light of its H-alpha emission
17. Imaging meteors
18. Imaging comets
19. Using a cooled 'one shot colour' camera
20. Using a cooled monochrome CCD camera
21. LRGB colour imaging
22. Narrow band colour imaging
Appendix A. Telescopes for imaging
Appendix B. Telescope mounts
Appendix C. The effects of the atmosphere
Appendix D. Auto guiding
Appendix E. Image calibration
Appendix F. Practical aspects of astroimaging.