Tag: History

Good books : Bohren & Huffman

Cover of ‘Absorption and Scattering of Light by Small Particles’ by Craig F. Bohren and Donald R. Huffman.

It is important to read good books. Astrophysics, quantum mechanics, and gravity (including attempts to combine them with quantum mechanics) have been at the forefront in terms of popular physics imagination. These are wonderful subtopics of physics, but there are a few others that need equal emphasis. So, here is my attempt to fill this gap with some book recommendations.

The first one in the optics community is just called ‘Bohren and Huffman’ and is one of the best technical books I have read and continue to read. It is humorous and filled with wonderful insights that still engage researchers and students alike.

Craig Bohren, a theoretical physicist, is a wonderful writer, and you will see more of his books discussed here.

The book introduces the scattering matrix from a ‘light scattering’ viewpoint, and has a direct connection to laboratory measurements.

Humour is one of the key aspects of this book (as with others from Bohren), and the title of chapter 8 gives a nice glimpse:
“A Potpourri of Particles”

There is a famous section in Chapter 11 with the heading – “Extinction = Absorption + Scattering” that wonderfully explains the physics behind it.

Overall, an outstanding book for understanding optics from an electromagnetics viewpoint and also to learn how electromagnetism is harnessed to understand interactions at the classical spatio-temporal scales.

Read this if you are interested in physics…It is a delight!

In audio-visual form:

Einstein – Science and its History & Philosophy

I have been interested in the views of Einstein related to the history and philosophy of science (HPS). The more I read about his work, the more I find that his inclination is to combine science with its historical and philosophical evolution. I am in search of his correspondence with fellow scientists and intellectuals, and have been looking at clues towards this combinational approach to science.

The above image is the title of the Physics Today article.

Recently, I came across an article in Physics Today1 that reproduced a part of Einstein’s letter2. Here it is:

I fully agree with you about the significance and educational value of methodology as well as history and philosophy of science. So many people today—and even professional scientists—seem to me like someone who has seen thousands of trees but has never seen a forest. A knowledge of the historic and philosophical background gives that kind of independence from prejudices of his generation from which most scientists are suffering. This independence created by philosophical insight is—in my opinion—the mark of distinction between a mere artisan or specialist and a real seeker after truth

It is clear that Einstein liked this combination and thought that it should be part of one’s scientific education. There is a lot more on this topic in the Physics Today article, and it is an excellent read to understand the thoughts of Einstein on this topic. More on this in a future blog…

  1. Howard, Don A. “Albert Einstein as a Philosopher of Science.” Physics Today 58, no. 12 (December 1, 2005): 34–40. https://doi.org/10.1063/1.2169442. ↩︎
  2. A. Einstein to R. A. Thornton, unpublished letter dated 7 December 1944
     (EA 6-574), Einstein Archive, Hebrew University, Jerusalem ↩︎

Soft Matter – emergence of a physics domain

Recently, I read a nice interview with Sid Nagel, who is a pioneer in soft condensed matter physics.

Sid Nagel has given an aura to an area of physics that was not considered fashionable even as late as the 2010s. Part of his elevation is because “Soft Matter Physics” has become so vital to understand our everyday world (including biological) that it is hard to ignore it anymore. Chemical Engineers, too, have played a major role in this elevation, and the James Frank Institute at Chicago has been an epicenter for this way of thinking.

A major shift in thinking, especially among physicists, is thanks to PW Anderson. His essay – ‘More is Different” did a great service to soft matter and complex systems by highlighting the importance of emergence (side note: the word emergence does not occur in his essay, even once !) It further got a major headway with a Nobel to de Gennes. Suddenly, condensed matter physicists had something to explore beyond electrons and their density functions. The French school had a major hand in this.

For me, soft matter physics, in a way, makes physics experiments democratic. One can still dare to do some ‘breakthrough science’ in a tiny kitchen 🙂

Conversation with Bejoy Thomas

Bejoy Thomas is an Associate Professor in the Humanities & Social Sciences Department at IISER Pune: https://sites.google.com/view/bejoykt/home.

He specializes in integrated water management with a river basin perspective. His research focuses on adaptation, access, and use of water in agricultural and domestic sectors, often collaborating across disciplines. With extensive fieldwork in Southern India, he has led multidisciplinary projects on water resources management and adaptation. His work bridges environmental sustainability, development, and policy.

In this episode, we discuss his intellectual journey so far.

  1. “(“Bejoy K Thomas.” n.d. Accessed May 12, 2025. https://sites.google.com/view/bejoykt/home.
  2. “Bejoy K. Thomas.” n.d. Accessed May 12, 2025. https://www.atree.org/profile/bejoy-k-thomas/.
  3. “‪Bejoy K Thomas – ‪Google Scholar.” n.d. Accessed May 12, 2025. https://scholar.google.co.in/citations?user=G4DHDVoAAAAJ&hl=en.
  4. “Bejoy K. Thomas – IISER Pune.” n.d. Accessed May 12, 2025. https://www.iiserpune.ac.in/research/department/humanities-and-social-sciences/people/faculty/regular-faculty/bejoy-k-thomas/3463)
  5. Bejoy K Thomas, PhD | LinkedIn.” n.d. Accessed May 12, 2025. https://www.linkedin.com/in/bejoy-k-thomas/?originalSubdomain=in.
  6. Bejoy K Thomas (ബിജോയ്) [@bejoykt]. 2024. “Traveling through Kuttanad/Vembanad Wetland, Where I Did My PhD Fieldwork Almost Two Decades Ago. Two and a Half Hours Boat Ride on Kerala State Water Transport Department (SWTD) from Alappuzha to Kottayam Costs Only 29 Rupees. Https://T.Co/nxCUVPMgfj.” Tweet. Twitter. https://x.com/bejoykt/status/1869608390504468810.
  7. ———. 2025. “Https://T.Co/K8dsgAg5CK.” Tweet. Twitter. https://x.com/bejoykt/status/1902889113889718291.
  8. “Bejoy K Thomas (ബിജോയ്) (@bejoykt) / X.” 2025. X (Formerly Twitter). April 17, 2025. https://x.com/bejoykt.
  9. “Centre for Water Research – Research Centres and Initiatives – Research – IISER Pune.” n.d. Accessed May 12, 2025. https://www.iiserpune.ac.in/research/research-centres-and-collaborations/centre-for-water-research.
  10. Ray, Bejoy K. Thomas & Devesh Kumar. 2025. “Jal Jeevan Mission: Hits and Misses.” BusinessLine. March 20, 2025. https://www.thehindubusinessline.com/opinion/jal-jeevan-mission-hits-and-misses/article69354503.ece.
  11. SANDRP. 2025. “Infrastructure Projects in Chenab Basin and Climate Change: Need to Exercise Caution.” SANDRP (blog). April 27, 2025. https://sandrp.in/2025/04/27/infrastructure-projects-in-chenab-basin-and-climate-change-need-to-exercise-caution/.
  12. Tiwari, Bidisha SahaSubham. 2025. “How Many Dams India Needs to Deprive Pakistan of Indus Waters.” India Today. April 29, 2025. https://www.indiatoday.in/india/story/indus-waters-treaty-suspended-storage-dams-india-pakistan-jhelum-chenab-2716996-2025-04-29.
  13. “Why NEP 2020 Provides an Opportunity to Include Water in Higher Education Curricula | The Indian Express.” n.d. Accessed May 12, 2025. https://indianexpress.com/article/opinion/columns/nep-2020-include-water-higher-education-curricula-8612914/.

He made physics more humane…

Today is Feynman’s birthday.

Part of my becoming a physicist is because of his books on lectures on physics.

Even today, as a professor of physics, and importantly as a student of physics, I go back to his lecture series to learn AND derive inspiration from his thinking. He made physics more humane.

Many people across the globe have fallen in love with physics because of his books and the ‘way he did physics’

Feynman was a physics genius, but he had his flaws. It is important for us to note the limitations of human beings; celebrate what is good, and be aware and critical of what is not.

There is a lesson in every human life.

It is up to us to learn from it.

From Yukawa Archives: a draft, a letter & a rejection

I have been amazed to explore the archives on Hideki Yukawa, which have been systematically categorized and meticulously maintained by Osaka University in Japan. My sincere thanks and acknowledgment to the Yukawa Memorial.

Below are a few gems from their public archives :

  1. Draft of the paper written in 1934 – The making of the groundbreaking paper of Yukawa, which eventually led to his Nobel Prize in 1949.

The archive draft is accompanied by a note which reads:

Yukawa had not published any paper before then. In 1933, Yukawa began working at Osaka Imperial University and tackled the challenge of elucidating the mystery of nuclear forces while Seishi Kikuchi and other prominent researchers were producing achievements in nuclear physics and quantum physics. The idea of γ’ (gamma prime) that Yukawa came up with in early October led to the discovery of a new particle (meson) that mediates nuclear forces. The idea of introducing a new particle for the purpose of explaining the forces that act between particles was revolutionary at that time. Yukawa estimated the mass of the new particle and the degree of its force. No other physicists in the world had thought of this idea before.

2. Letters between Tomonaga and Yukawa

Sin-Itiro Tomonaga was a legendary theoretical physicist from Japan, who independently formulated the theory of quantum electrodynamics (apart from Feynman and Schwinger) and went on to win the Nobel Prize in physics in 1965.

Tomonaga was a friend and classmate of Yukawa, and they inspired each other’s work. Below is a snapshot of the letter from 1933 written in Japanese.

Both these theoreticians were intensely working on interrelated problems and constantly exchanged ideas. The archival note related to the letter has to say the following:

During this period, Yukawa and Tomonaga concentrated on elucidating nuclear forces day in and day out, and communicated their thoughts to each other. In this letter, before starting the explanation, Tomonaga wrote “I am presently working on calculations and I believe that the ongoing process is not very interesting, so I omit details.” While analyzing the Heisenberg theory of interactions between neutrons and protons, Tomonaga attempted to explain the mass defects of deuterium by using the hypothesis that is now known as Yukawa potential. The determination of potential was arbitrary and the latest Pegrum’s experiment at that time was taken into consideration. Tomonaga also compared his results with Wigner’s theorem and Majorana’s theory.

3. Rejection letter from Physical Review

Which physicist can escape a rejection from the journal Physical Review?

Even Yukawa was not spared :-) Below is a snapshot of a rejection letter from 1936, and John Tate does the honours.

The influence of Yukawa and Tomonaga can be seen and felt at many of the physics departments across Japan. Specifically, their influence on nuclear and particle physics is deep and wide, and has inspired many in Japan to do physics. As the archive note says:

Yukawa and Tomonaga fostered the theory of elementary particles in Japan from each other’s standpoint. Younger researchers who were brought up by them, so to speak, must not forget that the establishment of Japan’s rich foundation for the research of the theory of elementary particles owes largely to Yukawa and Tomonaga.

4. Lastly, below is a picture of the legends from the archive: Enrico Fermi, Emilio Segrè, Hideki Yukawa, and James Chadwick.

From the archive note on the picture from September 1948:

Yukawa met Prof. Fermi and other physicists of the University of Chicago who were staying in Berkeley for the summer lectures. From the left: Enrico Fermi, Emilio Segrè, Hideki Yukawa, and James Chadwick.

Tomorrow, I will conclude my third trip to Japan. I always take a lot of inspiration from this wonderful country. As usual, I have not only met and learnt a lot from contemporary Japanese researchers, but also have metaphorically visited the past masters who continue to inspire physicists like me across the world.

For this, I have to say: Dōmo arigatōgozaimasu !

Kyoto digital archives 02 – Japan’s physics Who’s Who…

Continuing on archival research on physics @ Kyoto, I found a remarkable photo.

The who’s who of Japan’s theoretical physics (and future Nobels) in 1951. They were meeting at Kyoto to establish an inter-university research institute.

This photo was further reproduced at :

Takaiwa, Yoshinobu, Masako Bando, Haruyoshi Gotoh, Hisao Hayakawa, Kohji Hirata, Kazuyuki Ito, Kenji Ito, et al. 2014. “Memorial Archival Libraries of Yukawa, Tomonaga, and Sakata.” In Proceedings of the 12th Asia Pacific Physics Conference (APPC12). Vol. 1. JPS Conference Proceedings 1. Journal of the Physical Society of Japan. https://doi.org/10.7566/JPSCP.1.019005.

Kyoto digital archives 01 – Yukawa’s book

Duff’s famous physics textbook from 1900 (5th edition) owned by Yukawa
Yukawa’s name on the book
Hideki Yukawa’s picture on the Nobel website

Apart from sipping the wonderful Japanese coffee and exploring the streets of Kyoto on foot, I have been looking into the archives of Kyoto University. I am mainly searching for records and books related to their physics department, and obviously, one of the names that pops out very often is Hideki Yukawa.

Yukawa was one of the Nobel laureates from this university. He obtained his Nobel Prize in Physics in 1949 for his prediction of the existence of mesons on the basis of theoretical work on nuclear forces. He is a big name in physics, and there is a physical potential named after him, which means one can understand the intellectual heft he carries as a physicist. Yukawa spent most of his scientific career at Kyoto, specifically at the Kyoto Imperial University (now, no more imperial :-) ), and is regarded as one of the inspirations for a battery of many excellent theoretical physicists to have emerged out of not only Kyoto but also Japan, and perhaps many parts of the world.
While looking through the archival records, I came across one of the textbooks owned by Yukawa, which has his signature on it. It made my day !

The textbook titled “A Text-Book of Physics,” edited by A. Wilmer Duff, is a classic. Yukawa had the 5th edition (1921), and this book went on to have 3 more editions. I hope to write more about this particular textbook because the author, Wilmer Duff, had a connection to Madras University (as a Professor) in India and was also on the faculty of my post-doc alma mater – Purdue University !

The scientific world is a small place with unanticipated, wonderful connections :-)