MAPPING OF LITERATURE ON BOSE - EINSTEIN CONDENSATION

This paper attempts to highlight quantitatively the growth and development of research work in this field on Bose-Einstein Condensation (BEC) in terms of publication output as per Science Citation Index (1982-2005). During 1982–2005 a total of 5258 papers were published by the scientists in this field. The average number of publications published per year were 219. The highest number of papers 814 were published in 2004. There were 77 countries involved in the research in this field. USA is the top producing country with 1632 publications (31%) followed by Germany with 620 publications (11.79%). Authorship and collaboration trend was towards multiauthored papers. Intensive collaboration was found during 1996-2005. One paper “Astrophysical Journal 543 (1), (2000), L39-L42” had 56 collaborators. There were 1635 international collaborative papers. Bilateral collaboration accounted for 24 percent of total collaborative papers. National Institute of Standards & Technology (USA) topped the list with 179 publications followed by University of Colorado (USA) with 160 publications. The most prolific authors were: W. Ketterle (USA) with 93 publications, K. Burnett (England) and M. Lewenstein (England) with 68 publications each and S. Stringari with 57 publications. The most preferred journals by the scientists were : Physical Review- A with 1504 papers, Physical Review Letters with 824 papers, Journal of Physics-B with 205 papers, Physical Review- B with 178 papers, Physics Letters-A with157 papers, Physical Review –E with 122 papers and Journal of Low Temperature Physics with 102 papers. The high frequency keywords were : Bose-Einstein Condensation (2012), Gases (1928), Atoms (860), and Dynamics (493).

[1]  Bradley,et al.  Evidence of Bose-Einstein Condensation in an Atomic Gas with Attractive Interactions. , 1995, Physical review letters.

[2]  Anil Kumar,et al.  World literature on thorium research: A scientometric study based on Science Citation Index , 2006, Scientometrics.

[3]  Praveen Sharma,et al.  Solar power research: A scientometric study of world literature , 2005, Scientometrics.

[4]  Tibor Braun,et al.  International collaboration in the sciences 1981–1985 , 1990, Scientometrics.

[5]  R. Chidambaram Measures of progress in science and technology , 2005 .

[6]  C. Wieman,et al.  Observation of Bose-Einstein Condensation in a Dilute Atomic Vapor , 1995, Science.

[7]  Vijai Kumar,et al.  Scientometric Dimensions of Thorium Research in lndia , 2006 .

[8]  Tibor Braun,et al.  The landscape of national performances in the sciences, 1981–1985 , 2005, Scientometrics.

[9]  B. K. Sen,et al.  Evaluation of recent scientific research output by a bibliometric method , 2005, Scientometrics.

[10]  Tibor Braun,et al.  World Flash on Basic Research , 2005, Scientometrics.

[11]  Bidyarthi Dutta,et al.  The scattering of articles over a journal system as observed from the viewpoint of Bose-Einstein statistics , 2005 .

[12]  Anil Kumar,et al.  SCIENTOMETRIC DIMENSIONS OF NUCLEAR SCIENCE AND TECHNOLOGY RESEARCH IN INDIA: A STUDY BASED ON INIS (1970-2002) DATABASE , 2006 .

[13]  M. M. Koganuramath,et al.  Physics Nobel laureate Wolfgang Ketterle : a scientometric portrait , 2004 .

[14]  W. Ketterle,et al.  Bose-Einstein condensation , 1997 .

[15]  K. B. Davis,et al.  Bose-Einstein Condensation in a Gas of Sodium Atoms , 1995, EQEC'96. 1996 European Quantum Electronic Conference.

[16]  Observation of Bose-Einstein condensation in a dilute atomic vapor below 200 nanokelvins , 1995 .

[17]  V. L. Kalyane,et al.  Nobel laureates: Their publication productivity, collaboration and authorship status , 2005, Scientometrics.