Physics', 386–387 и L. M. Brown et al., 'Cosmic Ray Research in Japan before World War II', Progress of Theoretical Physics Supplement 105 (1991): 25.
521
Ito, 'Making Sense of Ryôshiron', 173–206, Low, Science and the Building of a New Japan, 18–20 и Dong-Won Kim, Yoshio Nishina: Father of Modern Physics in Japan (London: Taylor and Francis, 2007), 1–15.
522
Kim, Yoshio Nishina, 15–46, Ito, 'Making Sense of Ryôshiron', 206–208 и Low, Science and the Building of a New Japan, 20.
523
Kim, Yoshio Nishina, 15–46, Low, Science and the Building of a New Japan, 20–22 и A Century of Discovery: The History of RIKEN (Wako: Riken, 2019), 22.
524
Ito, 'Making Sense of Ryôshiron', 208–209 и 239–245, Kim, Yoshio Nishina, 26–39 и Low, Science and the Building of a New Japan, 20–22.
525
Kim, Yoshio Nishina, 26–39 и Yuji Yazaki, 'How the Klein – Nishina Formula was Derived: Based on the Sangokan Nishina Source Materials', Proceedings of the Japan Academy. Series B, Physical and Biological Sciences 93 (2017).
526
Ito, 'Making Sense of Ryôshiron', 110–16, 260, Low, Science and the Building of a New Japan, 22 и Kim, Yoshio Nishina, 55.
527
Ito, 'Making Sense of Ryôshiron', 261, Low, Science and the Building of a New Japan, 22 и Kim, Yoshio Nishina, 64.
528
Ito, 'Making Sense of Ryôshiron', 1, Low, Science and the Building of a New Japan, 106–107, Nicholas Kemmer, 'Hideki Yukawa, 23 January 1907 – 8 September 1981', Biographical Memoirs of Fellows of the Royal Society 29 (1983), L. M. Brown et al., 'Yukawa's Prediction of the Mesons', Progress of Theoretical Physics Supplement 105 (1991): 10 и Hideki Yukawa, Tabito (The Traveler), пер. L. Brown and R. Yoshida (Singapore: World Scientific, 1982), 10–11 и 36–37.
529
Ito, 'Making Sense of Ryôshiron', 280, Kim, 'Emergence of Theoretical Physics', 395, Low, Science and the Building of a New Japan, 106–107 и 119–121, Yukawa, Tabito, 12 и Hideki Yukawa, Creativity and Intuition: A Physicist Looks at East and West, пер. John Bester (Tokyo: Kodansha International, 1973), 31–35.
530
Kim, 'Emergence of Theoretical Physics', 395–399, Low, Science and the Building of a New Japan, 106–107 и Yukawa, Tabito, 170.
531
Ito, 'Making Sense of Ryôshiron', 280–281, Kim, 'Emergence of Theoretical Physics', 395, Low, Science and the Building of a New Japan, 108, Brown et al., 'Yukawa's Prediction of the Mesons', 14 и L. M. Brown et al., 'Particle Physics in Japan in the 1940s Including Meson Physics in Japan after the First Meson Paper', Progress of Theoretical Physics Supplement 105 (1991): 35–40.
532
Low, Science and the Building of a New Japan, 120, Yukawa, Tabito, 24, Brown et al., 'Particle Physics in Japan', 35 и Hideki Yukawa, 'On the Interaction of Elementary Particles', Proceedings of the Physico-Mathematical Society of Japan 17 (1935).
533
Brown et al., 'Cosmic Ray Research in Japan', 31, Kim, 'Emergence of Theoretical Physics', 387 и Low, Science and the Building of a New Japan, 77–79.
534
Robert Anderson, Nucleus and Nation: Scientists, International Networks, and Power in India (Chicago: University of Chicago Press, 2010), 24–26, Pramod Naik, Meghnad Saha: His Life in Science and Politics (Cham: Springer, 2017), 32–33 и D. S. Kothari, 'Meghnad Saha, 1893–1956', Biographical Memoirs of Fellows of the Royal Society 5 (1960): 217–218.
535
Anderson, Nucleus and Nation, 24–26, Naik, Meghnad Saha, 32–33 и Kothari, 'Meghnad Saha', 217–219.
536
Anderson, Nucleus and Nation, 26–31, Naik, Meghnad Saha, 33–47 и Kothari, 'Meghnad Saha', 218–219.
537
Там же.
538
Anderson, Nucleus and Nation, 1–15, 57, David Arnold, 'Nehruvian Science and Postcolonial India', Isis 104 (2013): 262–265, David Arnold, Science, Technology and Medicine in Colonial India (Cambridge: Cambridge University Press, 2000), 169–210, G. Venkataraman, Journey into Light: Life and Science of C. V. Raman (Bangalore: Indian Academy of Sciences, 1988), 457 и Benjamin Zachariah, Developing India: An Intellectual and Social History, c. 1930–50 (New Delhi: Oxford University Press, 2005), 236–238.
539
Anderson, Nucleus and Nation, 23–35, Naik, Meghnad Saha, 48–65, Kothari, 'Meghnad Saha', 223–224 и Purabi Mukherji and Atri Mukhopadhyay, History of the Calcutta School of Physical Sciences (Singapore: Springer, 2018), 14–15.
540
Kothari, 'Meghnad Saha', 220–221 и Meghnad Saha, 'Ionization in the Solar Chromosphere', Philosophical Magazine 40 (1920).
541
Naik, Meghnad Saha, 94–123, Kothari, 'Meghnad Saha', 229 и Abha Sur, 'Scientism and Social Justice: Meghnad Saha's Critique of the State of Science in India', Historical Studies in the Physical and Biological Sciences 33 (2002).
542
Mukherji and Mukhopadhyay, History of the Calcutta School, 111–115 и Jagdish Mehra, 'Satyendra Nath Bose, 1 January 1894 – 4 February 1974', Biographical Memoirs of Fellows of the Royal Society 21 (1975): 118–120.
543
Anderson, Nucleus and Nation, 26–27 и Mehra, 'Satyendra Nath Bose', 118–120.
544
Anderson, Nucleus and Nation, 28, Mehra, 'Satyendra Nath Bose', 122 и Meghnad Saha and Satyendra Nath Bose, The Principle of Relativity (Calcutta: University of Calcutta, 1920).
545
Anderson, Nucleus and Nation, 41, Mehra, 'Satyendra Nath Bose', 123–129 и Rajinder Singh, Einstein Rediscovered: Interactions with Indian Academics (Düren: Shaker Verlag, 2019), 23.
546
Mehra, 'Satyendra Nath Bose', 123–129.
547
Mehra, 'Satyendra Nath Bose', 130–142, Singh, Einstein Rediscovered, 23, Wali Kameshwar, ed., Satyendra Nath Bose, His Life and Times: Selected Works (Hackensack: World Scientific Publishing, 2009), xxix и Satyendra Nath Bose, 'Plancks Gesetz und Lichtquantenhypothese', Zeitschrift für Physik 26 (1924).
548
Singh, Einstein Rediscovered, 10 и Rasoul Sorkhabi, 'Einstein and the Indian Minds: Tagore, Gandhi and Nehru', Current Science 88 (2005): 1187–1190.
549
Venkataraman, Journey into Light, 186–191, 267, Mukherji and Mukhopadhyay, History of the Calcutta School, 53–55, S. Bhagavantam, 'Chandrasekhara Venkata Raman. 1888–1970', Biographical Memoirs of Fellows of the Royal Society 17 (1971): 569 и Chandrasekhara Venkata Raman, 'The Colour of the Sea', Nature 108 (1921): 367.
550
Raman, 'The Colour of the Sea', 367, Venkataraman, Journey into Light, 195–196 и Bhagavantam, 'Chandrasekhara Venkata Raman', 568–569.
551
Arnold, Science, Technology and Medicine, 169 и Chandrasekhara Venkata Raman, 'A New Radiation', Indian Journal of Physics 2 (1928).
552
Anderson, Nucleus and Nation, 65–67 и Venkataraman, Journey into Light, 255–266.
553
Venkataraman, Journey into Light, 389.
554
Venkataraman, Journey into Light, 318–319, Abha Sur, 'Dispersed Radiance: Women Scientists in C. V. Raman's Laboratory', Meridians 1 (2001) и Arvind Gupta, Bright Sparks: Inspiring Indian Scientists from the Past (Delhi: Indian National Academy of Sciences, 2012), 123–126.
555
Venkataraman, Journey into Light, 318–319, Sur, 'Dispersed Radiance'