International Year of Light and Light-based Technologies
The book International Year of Light and Light-based Technologies, written by DR. SAMEEN AHMED KHAN who has been working in optics since 25 years and who has extensively published on different aspects of the subject, traces the history of optics from the early Egyptian and Greek civilizations to the present. The book also lucidly describes how the ancient knowledge of optics reached the Arab lands in the eighth century, writes the reviewer, DR. AZHER MAJID SIDDIQUI.
Title: International Year of Light and Light-based Technologies
Author: Sameen Ahmed Khan (Dhofar University, Salalah, Sultanate of Oman)
Publisher: LAP Lambert Academic Publishing, Germany, http://www.lap-publishing.com/
Details: 96 pages (30 July 2015).
Price: 49.90 €.
Reviewer: Dr. Azher Majid Siddiqui, Department of Physics, Faculty of Natural Sciences, Jamia Millia Islamia, New Delhi 110025, INDIA. (email@example.com, http://www.AzherMajidSiddiqui.webs.com/)
In December 2013, the United Nations designated 2015 as the International Year of Light and Light-based Technologies (IYL). A number of major scientific anniversaries are being celebrated in 2015, starting with the encyclopedic works on optics by the Islamic scholar Ibn al-Haytham in 1015. This piece of news was covered in this magazine in January 2014. Dr. Sameen has been following the IYL since its conception in Italy, in 2011. Hence, the early reporting and prompt publishing of this landmark event in this magazine and elsewhere. Dr. Sameen is a Member of the prestigious Working Group, ‘Ibn al Haytham’ set up by the ‘International Steering Committee’ of the International Year of Light and Light-based Technologies. The book under study is the first book on this topic.
The book traces the history of optics from the early Egyptian and Greek civilizations to the present. Then lucidly describes how the ancient knowledge of optics reached the Arab lands in the eighth century. The Medieval Arabs preserved the then known sciences (astronomy, chemistry, medicine, mathematics, optics, etc.) through the process of translation accompanied with original contributions of the highest caliber. Over half the book is dedicated to the Medieval Arab achievements in optics, during the Islamic Golden Age (eighth to the thirteenth centuries).
Ancient science and philosophy preserved in the Greek, Sanskrit, Pahlavi and Syriac languages would have been lost forever had the scholars centred around Baghdad during the 8th-12th centuries not translated them into Arabic. Later on, the knowledge preserved in Arabic was translated into Latin and other European languages. This paved the way for the European Renaissance. Contributions of the contemporary science historians such as Abdel Hamid Ibrahim Sabra and Roshdi Hifni Rashed are described in detail. They examined and translated the Arabic manuscripts from antiquity (lying in the museums) into French and English and, thus, shed new light on the Arab contributions to sciences and optics, in particular. A detailed account of these developments is presented.
The book has an appendix outlining the history of modern optics from the 13th century to current times. The very current developments are covered such as the ones leading to the optics related 2014 Nobel Prizes in Physics and Chemistry. So also, the 2015 King Faisal International Prize, which is also related to optics by a remarkable coincidence. 20th century was marked with the remarkable development of Accelerator-based Light Sources. These developments are described and the author persuasively presents the need for an International Year of Particle Accelerators and Accelerator-based Technologies (IYPA).
The author states,
“It is high time to recognize the Medieval Islamic Achievements in Optics and other sciences and give due credit, which they rightly deserve. There have been numerous conferences on Arab Contributions to Science. But this era of golden history is yet to find a mentionable place in school textbooks.”
The author further urges,
“It is time for the Arab and Islamic countries to reflect on the decline of science in their nations and look forward to turning a new leaf. It is time for them to come up with realizable schemes to revive the tradition of learning and enquiry as enshrined in Islam. Such a revival will not be possible without the generous funding and government patronage. It is time to build international science centres in the Arab and Muslim countries, possibly modelled after the international European institutions.”
As of August 2015, we had 93 National Nodes which are organizing local campaigns, activities and events. What about the remaining hundred-odd countries?
The book could have included the ‘Medieval Islamic Achievements in Optics’ in its title or subtitle. The book has 172 references many of which belong to the author! This is not surprising since the author has been working in optics since 25 years and has extensively published on different aspects. The book has concisely covered the very ancient to the contemporary and has even attempted future insights! The book shall be very useful to one and all: popular science readers, historians, students, teachers, researchers, and most importantly, the policymakers.