Full Product Details
Author: John W. Hardy
Publisher: Oxford University Press Inc
Imprint: Oxford University Press Inc
Volume: 16
Dimensions:
Width: 18.70cm
, Height: 3.20cm
, Length: 26.30cm
Weight: 0.966kg
ISBN: 9780195090192
ISBN 10: 0195090195
Pages: 448
Publication Date: 01 October 1998
Audience:
College/higher education
,
Professional and scholarly
,
Undergraduate
,
Postgraduate, Research & Scholarly
Format: Hardback
Publisher's Status: Active
Availability: To order
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Reviews
<br> While any of the four [monographs available in the field of adaptive optics] is suitable for use in a graduate class in observational astronomy, by far the best of them is Adaptive Optics for Astronomical Telescopes, by John Hardy, a pioneer in adaptive optics who, as adaptive-optics project leader at ITEK Corp, led the research and technology effort that culminated in the first operational military adaptive optics system in 1981. Hardy's book . . . would be an outstanding choice for a graduate class, because each topic is explained completely from basic principles to the ultimate level of complexity. . . . Once one is immersed in the rhythm of the presentation, the book is a pleasure to read. The strengths of Hardy's work include his knowledge of the US military literature in this field and his even-handed presentation of the many competing technologies that contribute to an adaptive-optics system. --Physics Today<br>
While any of the four [monographs available in the field of adaptive optics] is suitable for use in a graduate class in observational astronomy, by far the best of them is Adaptive Optics for Astronomical Telescopes, by John Hardy, a pioneer in adaptive optics who, as adaptive-optics project leader at ITEK Corp, led the research and technology effort that culminated in the first operational military adaptive optics system in 1981. Hardy's book . . . would be an outstanding choice for a graduate class, because each topic is explained completely from basic principles to the ultimate level of complexity. . . . Once one is immersed in the rhythm of the presentation, the book is a pleasure to read. The strengths of Hardy's work include his knowledge of the US military literature in this field and his even-handed presentation of the many competing technologies that contribute to an adaptive-optics system. --Physics Today While any of the four [monographs available in the field of adaptive optics] is suitable for use in a graduate class in observational astronomy, by far the best of them is Adaptive Optics for Astronomical Telescopes, by John Hardy, a pioneer in adaptive optics who, as adaptive-optics project leader at ITEK Corp, led the research and technology effort that culminated in the first operational military adaptive optics system in 1981. Hardy's book . . . would be an outstanding choice for a graduate class, because each topic is explained completely from basic principles to the ultimate level of complexity. . . . Once one is immersed in the rhythm of the presentation, the book is a pleasure to read. The strengths of Hardy's work include his knowledge of the US military literature in this field and his even-handed presentation of the many competing technologies that contribute to an adaptive-optics system. --Physics Today
While any of the four [monographs available in the field of adaptive optics] is suitable for use in a graduate class in observational astronomy, by far the best of them is Adaptive Optics for Astronomical Telescopes, by John Hardy, a pioneer in adaptive optics who, as adaptive-optics project leader at ITEK Corp, led the research and technology effort that culminated in the first operational military adaptive optics system in 1981. Hardy's book . . . would be an outstanding choice for a graduate class, because each topic is explained completely from basic principles to the ultimate level of complexity. . . . Once one is immersed in the rhythm of the presentation, the book is a pleasure to read. The strengths of Hardy's work include his knowledge of the US military literature in this field and his even-handed presentation of the many competing technologies that contribute to an adaptive-optics system. --Physics Today<br>
