Catoptrics
Catoptrics (from Template:Langx katoptrikós, "specular",[1] from Template:Langx katoptron "mirror")[2] deals with the phenomena of reflected light and image-forming optical systems using mirrors. A catoptric system is also called a catopter (catoptre).
History
Ancient Texts
Catoptrics is the title of two texts from ancient Greece:
- The Pseudo-Euclidean Catoptrics. This book is attributed to Euclid,[3] although the contents are a mixture of work dating from Euclid's time together with work which dates to the Roman period.[4] It has been argued that the book may have been compiled by the 4th century mathematician Theon of Alexandria.[4] The book covers the mathematical theory of mirrors, particularly the images formed by plane and spherical concave mirrors.
- Hero's Catoptrics. Written by Hero of Alexandria, this work concerns the practical application of mirrors for visual effects. In the Middle Ages, this work was falsely ascribed to Ptolemy. It only survives in a Latin translation.[5]
The Latin translation of Alhazen's (Ibn al-Haytham) main work, Book of Optics (Kitab al-Manazir),[6] exerted a great influence on Western science: for example, on the work of Roger Bacon, who cites him by name.Template:Sfn His research in catoptrics (the study of optical systems using mirrors) centred on spherical and parabolic mirrors and spherical aberration. He made the observation that the ratio between the angle of incidence and refraction does not remain constant, and investigated the magnifying power of a lens. His work on catoptrics also contains the problem known as "Alhazen's problem".Template:Sfn Alhazen's work influenced Averroes' writings on optics,Template:CN and his legacy was further advanced through the 'reforming' of his Optics by Persian scientist Kamal al-Din al-Farisi (d. ca. 1320) in the latter's Kitab Tanqih al-Manazir (The Revision of [Ibn al-Haytham's] Optics).Template:SfnTemplate:Sfn
Renaissance
16th-century Jewish-Ferraresi physicist Rafael Mirami wrote a treatise on the subject, Compendiosa introduttione alla prima parte della specularia, which became influential in a revival of the field, and contributed towards Pope Gregory XIII's astronomical calculations that led to the creation of the Gregorian Calendar.[7][8]
Catoptric telescopes
The first practical catoptric telescope (the "Newtonian reflector") was built by Isaac Newton as a solution to the problem of chromatic aberration exhibited in telescopes using lenses as objectives (dioptric telescopes).
See also
- Dioptrics
- Catadioptrics
- Optical telescope
- List of telescope types
- Image-forming optical system
- Fresnel lens
- Lighthouse lens
References
Bibliography
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Template:Ancient Greek mathematics
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- ↑ a b Template:MacTutor Biography, accessed 31 January 2013
- ↑ A. Mark Smith, (1999), Ptolemy and the Foundations of Ancient Mathematical Optics, pages 16-17. American Philosophical Society. Template:ISBN
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