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History and Philosophy of Physics (I)

Histoire et philosophie de la physique (I)

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Published on Thursday, April 29, 2021

Summary

This seminar is conceived as a place of exchange between historians of physics, philosophers of physics, physicists and students in the disciplines concerned. Although this year's program has no specific theme, it reflects the organizers' interest in the issues that drive us to cross interdisciplinary boundaries: between physics and philosophy, between history and philosophy, between theoretical construction and experience, between physics and other sciences.

Announcement

Organizers

Nadine de Courtenay, Sara Franceschelli, Fabien Grégis, Olivier Darrigol

Program

May, 4, 3:30 pm

History Of Quantum Optics

To participate online at this session, we thank you to write on the 5/3 latest to Fabien Gregis: gregis ( @ ) crans.org with mail object "HPP 4-5-2021"

  • Johannes-Geert Hagmann (Deutsches Museum, Munich) : Electronics preceding optics: The Shawanga Lodge conference in 1959

Designated by some as “the conference that changed the world,” the Shawanga Lodge Meeting on “Quantum Electronics: Resonance Phenomena” in 1959 was the first workshop that brought together a sizeable group of international scientists working in the emerging fields of maser and laser physics. As the term quantum electronics was minted through the gathering, we take a closer look at what the steering committee, led by Charles H. Townes (1915-2015), thought about the composition of this particular field of research for an on-invitation-only event. Analyzing the preparations for the meeting, the present talk will embed the conference in two dimensions: first, as a meaningful snapshot of physical research dealing with quantum phenomena that later extended to optics, and second, as a notable expression of US Cold War foreign policy on scientific exchange.

  • Gautier Depambour (Université de Paris–ED623, SPHere) : L’introduction des états cohérents dans le domaine de l’optique quantique

Les « états cohérents », ainsi nommés par Roy Glauber en 1963, jouent un rôle fondamental en optique quantique. On les trouve également auparavant sous d’autres formes, aussi bien chez Schrödinger (en 1926) que chez les théoriciens de l’électrodynamique quantique, tels Feynman ou Schwinger. Au cours de cette présentation, je tâcherai d’abord d’expliquer comment et pourquoi de tels états ont ressurgi dans le cadre de l’optique. Dans un second temps, je montrerai que les états cohérents ont permis de clarifier un certain nombre de problèmes soulevés dans les années 1960, comme l’absence d’effet Hanbury Brown et Twiss dans les corrélations du laser, le lien entre les notions de phase et de photon, ou encore la comparaison des théories classique et quantique de la cohérence. Je présenterai enfin la querelle de priorité qui opposa Roy Glauber à George Sudarshan à propos de la découverte de la représentation diagonale, qui permet d’exprimer les états du champ comme une somme de projecteurs sur les états cohérents et de mieux comprendre la relation entre optiques classique et quantique.

  • Olival Freire Jr (Universidade Federal da Bahia, Brésil) : The slow acceptance of quantum optics

Courses at the Collège de France are a singular kind of teaching. Neither graduate nor undergraduate courses, they are a kind of working thought, both presentation of the state of the art and of novel proposals in a given field. I will approach Claude Cohen-Tannoudji’s 1979–1980 course from this perspective. Its goal was “to attempt to answer, analyzing recent experimental tests, the following question: Could we dispense with the concept of photon, at least in the optical domain?” The course critically reviewed the semiclassical theories of matter-radiation interactions and presented some successes of these approaches in the explanation of phenomena such as the photoelectrical effect, the Hanbury-Brown and Twiss effect, in the semiclassical theory of laser, and in nonlinear optics. However, the course was silent on the early experiments on Bell’s theorem in the optical domain, and about what information these experiments could bring for the concept of photon. Thus, twenty years after Roy Glauber’s foundational work, there still was no consensus on the contents of quantum optics. I will propose a few conjectures about this slow acceptance of aspects of quantum optics.

May, 11, 3:30pm

Unwanted Particles

To participate online at this session, we thank you to write on the 5/3 latest to Fabien Gregis: gregis ( @ ) crans.org with mail object "HPP 14-5-2021"

  • Justin Gabriel (SPHere) : Unwanted particles: Early reception of the first experimental indications of "heavy mesons."

A typical account of the history of strange particles begins as follows: George Rochester and Clifford Butler published two V-shaped tracks in 1947; then for 3 years nobody reported such tracks; finally, Carl David Anderson and his team found 30 such events in 1950, perhaps following an informal discussion with Rochester. This account is highly inaccurate, and it exists mainly because Rochester gave it himself many times during conferences on the history of particle physics. One of its main defects is that it confuses the history of strange particles with the one V-particle that Rochester and Butler were first to observe. A second default is that it leads us to believe that the observation of Rochester and Butler was not received and had no consequences until 1950. On the contrary, the observation of Rochester and Butler was regularly cited before 1950 together with a number of other observations of so-called "heavy mesons," namely, particles of mass intermediate between pi-meson and proton mass. The history of strange particles truly started with or proceeded from the history of heavy mesons. Experimentalists talked about and sometimes looked for such particles in the years 1947–1950, and theoreticians worked on them as early as 1948.

  • Arianna Borrelli (MECS Leuphana University Lüneburg and Technical University Berlin) : The "strange" behaviour of new particles in the 1950s: Surprising fact or theoretical construction?

The story of strange particles has often been presented as a paradigmatic example of how a simple, but surprising observation can lead to the formulation of a theoretical model. According to these accounts, physicists in the early 1950s noted that new particles discovered in cosmic-ray experiments were produced fast and in great quantity, but decayed slowly. This "puzzling","strange" behaviour was eventually explained by postulating the existence of a new particle property, which was given the name "strangeness". Was this really a straightforward story of bottom-up model-building? I will argue that the strange behaviour of the new particles was not a phenomenon immediately observed in cosmic ray experiments, but rather a hypothesis which emerged from attempts at modeling experimental results. The surprising behaviour was a construction resulting from sketchy hypotheses by Enrico Fermi and Richard Feynman and complex models by a number of Japanese theorists, among them Yoichiro Nambu, Kazuhiko Nishijima and Toichiro Kinoshita. Of particular importance for the emergence of the allegedly observed strange behaviour was a workshop held in Tokyo in July 1951, in which Japanese scientists from Tokyo, Kanazawa and Osaka met to discuss the new discoveries made by U. S. Americans and European experimentalists on cosmic rays.

  • Kent Staley (Philosophy, Saint Louis University, Missouri) & Hugo Beauchemin (Physics, Tufts University, Massachusetts) : When no particle is unwanted: Exploring beyond the standard model at the LHC.

One way to search for new physics at the Large Hadron Collider is to look, not for signs of specific particles predicted by particular models, but for signatures that have features distinctive of a wide variety of Beyond Standard Model physics models, and that may even reflect new physics not included in any model thus far proposed. These Signature Based Model Independent (SBMI) searches are the subject of this talk. Given the long drought in the discovery of new physics pointing beyond the Standard Model, any particle that SBMI searches reveal would not be unwanted, but might be unpredicted, or predicted by a large number of incompatible theories. Although in many ways SBMI searches have characteristics associated with exploratory experiments (as described by Steinle and extended by Karaca), we will describe how they involve theoretical assumptions and theory guidance at every level, all the way down to the identification within the data of signatures associated with Standard Model ontology, such as electrons. Crucial to the empirical soundness of SBMI searches is the use of theoretical assumptions apart from commitment to the correctness of those assumptions. What enables this non-committal use of theory is the evaluation of uncertainty in the context of definite epistemic objectives. Our discussion highlights how uncertainty evaluation itself can be understood as having an exploratory aspect. This line of analysis invites a restructuring of the epistemology of experimental physics along pragmatist lines. Instead of distinguishing exploratory from other types of experimentation, we distinguish experimental tasks (e.g., testing a hypothesis or exploring through parameter variation) that can be combined with other tasks (calibration, correction, etc.) in the pursuit of epistemic objectives. An open historical question remains: to what extent can possibly implicit practices of non-committal theory use supported by uncertainty evaluation shed light on earlier episodes in the history of physics?

Places

  • Université de Paris
    Paris, France (75)

Date(s)

  • Tuesday, May 04, 2021
  • Tuesday, May 11, 2021

Keywords

  • histoire de la physique, quantum optics, SBMI, V-particles, Shawanga Lodge conference 1959

Contact(s)

  • Olivier Darrigol
    courriel : darrigol [at] paris7 [dot] jussieu [dot] fr

Information source

  • Nad Fachard
    courriel : nad [dot] fachard [at] univ-paris-diderot [dot] fr

License

CC0-1.0 This announcement is licensed under the terms of Creative Commons CC0 1.0 Universal.

To cite this announcement

« History and Philosophy of Physics (I) », Seminar, Calenda, Published on Thursday, April 29, 2021, https://calenda.org/869494

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