Milestones:First Millimeter-wave Communication Experiments by J.C. Bose, 1894-96
First Millimeter-wave Communication Experiments by J.C. Bose, 1894-96
Sir Jagadish Chandra Bose, in 1895, first demonstrated at Presidency College, Calcutta, India, transmission and reception of electromagnetic waves at 60 GHz, over a distance of 23 meters, through two intervening walls by remotely ringing a bell and detonating gunpowder. For his communication system, Bose developed entire millimeter-wave components such as: a spark transmitter, coherer, dielectric lens, polarizer, horn antenna and cylindrical diffraction grating.
In 1895, Jagadish Chandra Bose first demonstrated in Presidency College, Calcutta, India, transmission and reception of electromagnetic waves at 60 GHz, over 23 meters distance, through two intervening walls by remotely ringing a bell and detonating some gunpowder. For his communication system, Bose pioneered in development of entire millimeter-wave components like: spark transmitter, coherer, dielectric lens, polarizer, horn antenna and cylindrical diffraction grating. This is the first Millimeter wave communication system in the world, developed more than 100 years ago. This is the oldest Milestone achievement from Asian continent.
For his communication system, Bose pioneered development of a host of millimeter-wave components that included: spark transmitter, coherer, dielectric lens, polarizer, horn antenna and cylindrical diffraction grating. Bose chose quasi optical Millimeter wave frequency range.The wavelengths he used ranged from 2.5 cm to 5 mm. The reason for the choice of millimeter wave by Sir J.C. Bose was primarily due to the advantage of studies of quasioptical properties of the radio waves within his laboratory of limited size, that was available to him at the Presidency College. However, the components and systems developed by Sir J.C. Bose, initially at millimeter wave and subsequently at microwave, were outstanding discoveries made more than 100 years ago, in Calcutta, India, most of which are now being utilized, in a modernized form for Earth/space links and remote sensing.
References and Further Reading
1. TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, VOL. 45, NO. 12, DECEMBER 1997 2267 The Work of Jagadis Chandra Bose: 100 Years of Millimeter-Wave Research - Darrel T. Emerson
2. PROCEEDINGS OF THE IEEE, VOL. 86, NO. 1, JANUARY 1998 p.235 Centennial of the Semiconductor Diode Detector DIPAK L. SENGUPTA, TAPAN K. SARKAR
3. PROCEEDINGS OF THE IEEE, VOL. 86, NO. 1, JANUARY 1998 p.229 Detector for Electrical Disturbances Patent JAGADIS CHUNDER BOSE
4. PROCEEDINGS OF THE IEEE, VOL. 86, NO. 1, JANUARY 1998 p.225 On the Selective Conductivity Exhibited by Certain Polarising Substances JAGADIS CHUNDER BOSE
5. PROCEEDINGS OF THE IEEE, VOL. 86, NO. 1, JANUARY 1998 p.244 On a Self-Recovering Coherer and the Study of the Cohering Action of Different Metals JAGADIS CHUNDER BOSE
6. MTT Microwave Symposium 1998 Dedicated to Sir J C Bose and 100 years of millimeter wave
7. Research” by D.T. Emerson of the National Radio Astronomy. Observatory (Tucson, Arizona) & “Sir J.C. Bose and Radio Science” ...
www.mtt.org/symposia/ims/2003/committee/report/.../boseflyer.pdf
8. THE WORK OF JAGADIS CHANDRA BOSE: 100 YEARS OF MM-WAVE RESEARCH. (last revised February 1998). D.T. Emerson • National Radio Astronomy Observatory(1) ...
www.tuc.nrao.edu/~demerson/bose/bose.html
9. Photograph from Acharya Jagadis Chandra Bose, Birth Centenary, 1858-1958. Calcutta: published by the Birth Centenary Committee, printed by P.C. Ray, November 1958.
