Talk:Louis de Broglie

Latest comment: 1 year ago by Johnjbarton in topic Reverted move

Requested move

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The following discussion is an archived discussion of the proposal. Please do not modify it. Subsequent comments should be made in a new section on the talk page. No further edits should be made to this section.


As discussed below, Louis de Broglie is the name he is known by in English (as is given in Wikipedia:Naming conventions). I added the move tag accordingly. Benplowman 20:25, 28 July 2007 (UTC)Reply

The above discussion is preserved as an archive of the proposal. Please do not modify it. Subsequent comments should be made in a new section on this talk page. No further edits should be made to this section.

This article has been renamed from Louis, 7th duc de Broglie to Louis de Broglie as the result of a move request. --Stemonitis 06:55, 3 August 2007 (UTC)Reply

Duke

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If Louis de Broglie was a French duke, then it follows that his title wouldn't be the seventh (7th) duc de Broglie, but Louis, le septième (7ième) duc de Broglie. Does anyone think the same, or should the seventh (7th) be left there for English people? (this is, after all, English Wikipedia).--Clickheretologin 13:32, 10 July 2006 (UTC)Reply

On the point raised here (although I support the change above), no. We are written in English, for English speakers. Including septième as well as seventh is redundant for readers who know French, and almost pointless for those who don't. Going to fr:Louis de Broglie suggests that the French don't use it either; and if they did, it would be there. Septentrionalis PMAnderson 14:02, 30 July 2007 (UTC)Reply

"francisize" does not seem to be a common word, How about "gallicize" instead?

Neither. Since this guy is known for actually doing something, not just for holding a title, Wikipedia:Naming conventions says that the article should be the name by which he is best known in English: Louis de Broglie, or possibly Louis Victor de Broglie or Louis-Victor de Broglie. One or another of those spellings, of course, is used in the vast majority of the articles linking here, and I'd bet that almost all of them linking to the current article name were changed from something else at some time after this article was created. All the duke stuff, in both English and French, can appear in the intro, but it doesn't belong in the article name. Gene Nygaard 17:36, 14 October 2006 (UTC)Reply

Clean up

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This article is poorly written. A complete rewrite may be necassary.Woldo 00:23, 21 June 2006 (UTC)Reply

The equation listed under Hidden thermodynamics deserves a lot more attention, in particular a proper name for this principal and a citation. This is a little known equation of huge importance! It explains the principal of least action--the foundation of all classical mechanics in terms of quantum statistical dynamics. Pulu (talk) 01:15, 27 March 2011 (UTC)Reply

Three pages

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"His doctoral thesis is said to be three pages long"

These things are usually public, so this should be easy to check. Either "said to be" must go, or the entire sentence. Shinobu 13:11, 3 December 2006 (UTC)Reply

I've heard that claim made on the web, but it seems to be nothing but an urban legend. The published version of de Broglie's thesis, "Recherches sur la théorie des quanta" is 111 pages long. [1] -- Tim314 14:47, 23 January 2007 (UTC)Reply

Pronunciation

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I've heard his name pronounced a thousand different ways (de BROGlee, de BROGHlee de BROlee, de BROY)... any Francophones out there want to clarify this for the rest of us? --24.147.86.187 15:19, 18 March 2007 (UTC)Reply

Surely, though, the "el" in his last name is pronounced (it is not silent). I think the given IPA pronunciation should be changed to include the "el". — Preceding unsigned comment added by 128.54.33.173 (talk) 16:46, 26 September 2011 (UTC)Reply

There is in fact no "el" sound ([l]) in the pronunciation of this name. --Iceager (talk) 12:57, 6 February 2014 (UTC)Reply

The article currently has [dəbʁœj], but the pronunciation in Standard French given by at least two French reference books[1][2] on pronunciation is [dəbʁɔj] (approximately duh-BROY in English). I do understand why many French speakers would use [dəbʁœj], since the combination [œj] (as in feuille [fœj]) is more familiar to them than [ɔj], and also happens to be closer to the Piedmontese pronunciation for Breuj [brøj], the Piedmontese form of Broglie from which the French pronunciation derives. The corresponding Italian form Broglia is pronounced ['brɔʎa] in Italian; the Piedmontese and Italian forms are found in fr:Maison_de_Broglie#Prononciation (in French). I would correct the pronunciation in the article as [dəbʁɔj], but the pronunciation in the linked sound file is [dəbʁœj]. Should I give only [dəbʁɔj] as the correct pronunciation and remove the link to the sound file? Or should I give [dəbʁœj] as an alternative pronunciation? Is there a reliable outside source for the pronunciation [dəbʁœj] somewhere? --Iceager (talk) 12:57, 6 February 2014 (UTC)Reply

Ok, I added [dəbʁɔj] to the article and listed it first, but I've kept the previous pronunciation of [dəbʁœj] as an alternative. Even though I haven't found any sources for the latter, I don't doubt that it is what lots of French speakers actually use. Perhaps someone can find an outside source and add it to the article. --Iceager (talk) 13:12, 6 February 2014 (UTC)Reply
I was most definitely taught by another family of (ci-devant) Normandy aristocracy that the name is correctly pronounced [dəbʁœj]. That's also the only pronunciation given in the French WP. Awien (talk) 15:08, 15 December 2018 (UTC)Reply
  1. ^ Léon Warnant (1987). Dictionnaire de la prononciation française dans sa norme actuelle (in French) (3rd ed.). Gembloux: J. Duculot, S. A. ISBN 978-2-8011-0581-8.
  2. ^ Jean-Marie Pierret (1994). Phonétique historique du français et notions de phonétique générale (in French). Louvain-la-Neuve: Peeters. p. 102. ISBN 978-9-0683-1608-7.

WikiProject class rating

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This article was automatically assessed because at least one article was rated and this bot brought all the other ratings up to at least that level. BetacommandBot 07:17, 27 August 2007 (UTC)Reply

Was de Broglie Black?

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I have looked at many of his pictures over the course of his life, and he looks biracial or part black. He features, and his hair texture brought me to question his racial make up. His hair is afro in texture. That is not at all typical of anyone that does not have African ancestry. Also he never married. It was commonplace for black people in his day, passing for white for success in their careers, not to marry, because what the child may look like when it is born.

Can anyone provide a picture of his mother and father? Or any evidence that he may be black? 76.118.226.39 (talk) 23:19, 18 November 2007 (UTC)mkeReply

This is complete nonsense as nobody cares whether he was or not. However, since he was a member of the French aristocracy as a Count, it is highly unlikely. --Bduke (talk) 11:02, 19 November 2007 (UTC)Reply
Why unlikely? The current ruler of Monaco, Prince Albert, has a "black" son (although illegitimately). 86.169.77.110 (talk) 00:11, 14 April 2015 (UTC)Reply
In my estimation it's amply evident, Bduke, that at least one person does care (or did care circa 2007). I also don't personally care; but I'm not inclined to tell other folks not to believe what they see. The OP said that de Broglie appears to have negroid features. Do you mean to insinuate that de Broglie doesn't appear that way to the OP? Why is it nonsense to suggest such a thing? I personally don't think it's impossible. I also don't think his status as a noble peer makes it obviously unlikely. In fact I have no way of computing the likelihood that any one member of the Nobility may or may not have genes mixed with the Peasantry. I bet that you don't, either. — Preceding unsigned comment added by 24.223.130.32 (talk) 23:43, 7 July 2014 (UTC)Reply
Here we discuss the article, not the subject—see wp:talk page guidelines. - DVdm (talk) 17:13, 8 July 2014 (UTC)Reply
Quite possibly. Another famous Frenchman, Alexandre Dumas had "black" blood. De Broglie's features could also be Jewish. Who knows? 86.169.77.110 (talk) 00:08, 14 April 2015 (UTC)Reply

Proposal for adding detail about his theory to the article

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If nobody objects during the next several days, I plan to add the following to the article.

"De Broglie's argument began with the supposition that 'the basic idea of quantum theory is the impossibility of considering an isolated fragment of energy without assigning a certain frequency to it.' The particles of radiation -- and of matter as well -- had a level of existence that was fundamentally a 'periodic process.' "[1] Here is the footnote in case you can't read it back there. p. 277, Cropper, William H. Great Physicists: The Life and Times of Leading Physicists from Galileo to Hawking. Oxford, U.K.: Oxford University Press, 2001.

Thanks for your attention. Earththings (talk) 19:45, 17 December 2009 (UTC)Reply

He is one of the man who have take No bel Prise in Only 5 years.

  1. ^ p. 277, Cropper, William H. Great Physicists: The Life and Times of Leading Physicists from Galileo to Hawking. Oxford, U.K.: Oxford University Press, 2001,

Bad paragraph...

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The paragraph below makes a number of dubious claims, only some of which can be blamed on a poor translation from the French. Someone else clean it up or I will give it a try. Problems include but are not limited to:

1. Atomism has not been "ruined" by matter-waves; Wikipedia's article on 'Atoms' and on 'Atomism' indicates no such ruination.

2. The author is making unsubstantiated assertions when he argues that "a pure mathematical entity" gives matter merely an "appearance of wave behavior." This is hardly a settled scientific fact.

3. Changes in de Broglie's viewpoint are not accurately described.

4. The following statement is misleading at best: "The de Broglie-Bohm theory is today the only interpretation giving real status to matter-waves...." Objective collapse interpretations, including that of Penrose, give a real status to the wave function and such an entity can certainly be termed a "matter wave" in the sense that Bohm and de Broglie used it.


-------------From the current article: "From a philosophical viewpoint, this theory of matter-waves has contributed greatly to the ruin of the atomism of the past. Originally, de Broglie thought that real wave (i.e., having a direct physical interpretation) was associated with particles. In fact, the wave aspect of matter was formalized by a wavefunction defined by the Schrödinger equation, which is a pure mathematical entity having a probabilistic interpretation, without the support of real physical elements. This wavefunction gives an appearance of wave behavior to matter, without making real physical waves appear. However, until the end of his life de Broglie returned to a direct and real physical interpretation of matter-waves, following the work of David Bohm. The de Broglie-Bohm theory is today the only interpretation giving real status to matter-waves and representing the predictions of quantum theory. But, since it has some problems and doesn't go further in its predictions than the Copenhagen interpretation, it is little recognized by the scientific community."

Chrisman62 (talk) 21:12, 15 September 2012 (UTC)Reply

de Broglie's Death

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How did he die? And where? 65.185.171.242 (talk) 21:10, 18 April 2013 (UTC)Reply

Old age? 86.169.77.110 (talk) 00:14, 14 April 2015 (UTC)Reply

de Broglie's wave mechanics

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de Broglie's wave mechanics is not de Broglie-Bohm theory, nor is it a precursor of it. They are very different in terms of the physical wave. In de Broglie's wave mechanics, and associated double solution theory, there is a physical wave which guides (i.e. pilots) the particle and a statistical wave function which is for making predictions of experiments. The statistical wave function does not physically exist. In de Broglie-Bohm theory the wave function physically exists. de Broglie-Bohm theory should be referred to as Bohmian mechanics as de Broglie's theories are very different and de Broglie disagreed with the notion of a physical wave function. Mpc755 (talk) 07:12, 10 April 2014 (UTC)Reply

I have removed the wp:SYNTH, pending discussion. I have also removed your unsourced content at Double-slit experiment, pointing to here. - DVdm (talk) 07:53, 10 April 2014 (UTC)Reply
de Broglie's wave mechanics is the foundation of everything he did. I have removed the section having to do with the work by Steinberg. The work done with walking droplets is relevant as the MIT work ends with, "This physical picture is remarkably similar to an early model of quantum dynamics proposed by Louis de Broglie..." Mpc755 (talk) 08:25, 10 April 2014 (UTC)Reply
Reverted. User Mpc755 is blocked again, now for 5 days. - DVdm (talk) 08:55, 10 April 2014 (UTC)Reply

In the off chance that constructive collaboration is possible, let me offer a few concerns and suggestions. While removing the weak measurement part is a good start (it was never clear from the references whether it was referring to the de Broglie-Bohm theory or a pre-Bohm de Broglie pilot wave theory), it still leaves a great deal of original synthesis that makes the addition unacceptable IMO. As I've said before, the inclusion of the Laughlin quote (I'm assuming from pg 121 in the cited book) is a classic example of WP:SYNTH. Here we have two statements from two sources (A) de Broglie talks about a hidden medium for his pilot wave theory and (B) Laughlin talks about space being like a piece of window glass, filled with a relativistic ether, combined in a way to suggest that (C) Laughlin's relativistic ether is de Broglie's hidden medium, a conclusion found in neither of the sources. To quote from WP:OR:

Do not combine material from multiple sources to reach or imply a conclusion not explicitly stated by any of the sources. If one reliable source says A, and another reliable source says B, do not join A and B together to imply a conclusion C that is not mentioned by either of the sources. ... "A and B, therefore C" is acceptable only if a reliable source has published the same argument in relation to the topic of the article.

Additionally the idea that a particle displaces this hidden medium and is analogous to the bow wave of a ship cannot be found in any of the cited refs (at least I can't find it) and hence cannot be included as it is original synthesis. The comments involving water droplet experiment could be reworked and included as a re-emergence of the idea, albeit not in a quantum system, but any attempt to push it as evidence that de Broglie's is the correct interpretation of QM is OR at this point since the that idea is not found in any of the cited reliable sources (also note, youtube is generally not a reliable source). Finally, it would really help if you could find a secondary source that discusses de Broglie's pilot wave theory, especially one that distinguishes it from the de Broglie-Bohm theory, as right now your edit relies entirely on a primary source, de Broglie's original paper putting forward this idea. A secondary source could solve most of the possible OR issues and provide the context needed to determine the due weight to give this subtopic. So to sum up, and hopefully make future discussion easier:

  1. Inclusion of Laughlin quote looks like WP:SYNTH (A+B=C)
  2. Displacement of hidden medium/bow wave analogy appears to be an original conclusion not found in the cited sources
  3. Rework water droplet comments to remove hints of pushing the OR idea that de Broglie's pilot wave is the correct interpretation of QM
  4. Find a good secondary source which discusses and puts in context de Broglie's pilot wave theory.

Did I miss anything guys? --FyzixFighter (talk) 01:20, 11 April 2014 (UTC)Reply

Sounds reasonable. See [2]. - DVdm (talk) 06:44, 11 April 2014 (UTC)Reply

I would like to add the following to this wiki page. Mpc755 (talk) 14:06, 15 April 2014 (UTC) Reply

Extended content

de Broglie's wave mechanics and double solution theory

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How de Broglie's wave mechanics differs from Bohmian mechanics

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de Broglie-Bohm theory should be referred to as Bohmian mechanics as de Broglie disagreed with Bohm in terms of what physically waves. In Bohmian mechanics there is only the Ψ wave which de Broglie insists is of statistical nature only; it does not physically exist. In de Broglie's double solution theory there is the physical u wave connected to and neighboring the particle which guides the particle and a statistical Ψ wave used to determine probabilistic results from experiments.

de Broglie said the following in "Une tentative d'interprétation causale et non linéaire de la mécanique ondulatoire: la théorie de la double solution. Paris: Gauthier-Villars, 1956."[1]

But, as I have said, since 1951 I have once again been wondering if, after all, my first idea was not the right one. Further reflections on this very difficult problem have led me to refine certain points of the original double-solution theory.[Preface VI]

I have once more taken up the study of my former and earliest conceptions of Wave Mechanics without preconceived ideas of any sort and without any personal axe to grind. I may be wrong in wishing to go back to concepts that are clearer than those prevailing in theortetical physics at the present time. But I should like this line of thought, abandoned for some twenty-five years now and believed to lead to an impasse, to be carefully re-examined to see whether, on the contrary, it may not be the pathway that might lead to the true Microphysics of the Future.[Preface VII]

Unfortunately the development of the theory of the Double Solution presented great mathematical difficulties. For that reason, when I was requested to present a paper on Wave Mechanics at the Solvay Physical Congress held in Brussels in October 1927, I contented myself with a presentation of my ideas in an incomplete and diluted form which I called the "pilot-wave theory". ... And I used the term "pilot-wave theory" for the theory limited to the postulation of the existence of the particle and the Ψ wave, with no futher reference to a wave containing a singularity. ... But the Ψ wave usually employed in Wave Mechanics cannot be a physical reality; its normalization is arbitrary; its propagation, in the general case, is supposed to take place in an obviously fictitious configuration space, and the success of its probabilistic interpretation shows clearly that it is merely a representation of probabilities dependent upon the state of our knowledge and suddenly modified by every new piece of information. So I saw clearly that the pilot-wave theory could not supply the interpretation I sought; it did not achieve the clearcut separation of the objective and subjective, which had been give up by Bohr and his disciples, but which it was necessary to maintain if I was to arrive at a concrete and causal interpretation of Wave Mechanics.[Pages 90-91]

On the other hand, my original theory of the Double Solution, by distinguishing the Ψ wave, with its probabilistic and subjective character, from the singularity-wave (u), which was to be a description of objective reality, might possibly supply the more classical type of interpretation I was after. But I knew only too well that the theory of the double solution likewise involved numerous difficulties, especially when it came to the existence and form of singularity-waves and to their relation to the Ψ waves, or when one had to interpret in terms of singularity-waves interference experiments of the Young-slit type, etc.[Pages 91-92]

During the summer of 1951, there came to my attention, much to my surprise, a paper by David Bohm which appeard subsequently in The Physical Review. In this paper Bohm went back to my theory of pilot-wave, considering the Ψ wave as physical reality. He made a certain number of interesting remarks on the subject, and in particular, he indicated the broad outline of a theory of measurement that seemed to answer the objections Pauli had made to my approach in 1927. My first reaction on reading Bohm's work was to reiterate, in a communication to the Comptes rendus de l' Academie des Sciences, the objects, insurmountable in my opinion, that seemed to render impossible any attribution of physical reality to the Ψ wave, and consequently, to render impossible the adoption of the pilot-wave theory.[Pages 92]

de Broglie's description of quantum mechanics by the double solution theory

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When in 1923–1924 I had my first ideas about Wave Mechanics I was looking for a truly concrete physical image, valid for all particles, of the wave and particle coexistence discovered by Albert Einstein in his "Theory of light quanta". I had no doubt whatsoever about the physical reality of waves and particles.
For me, the particle, precisely located in space at every instant, forms on the v wave a small region of high energy concentration, which may be likened in a first approximation, to a moving singularity.[2]Louis de Broglie

de Broglie's understanding of wave-particle duality was that the particle is a moving singularity with an associated wave.

Any particle, even isolated, has to be imagined as in continuous 'energetic contact' with a hidden medium[3]

de Broglie's understanding of wave-particle duality is that it is a hidden medium which waves.

de Broglie's wave mechanics explanation for the behaviors in a double slit experiment

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While the founding fathers agonized over the question 'particle' or 'wave', de Broglie in 1925 proposed the obvious answer 'particle' and 'wave'. Is it not clear from the smallness of the scintillation on the screen that we have to do with a particle? And is it not clear, from the diffraction and interference patterns, that the motion of the particle is directed by a wave? De Broglie showed in detail how the motion of a particle, passing through just one of two holes in screen, could be influenced by waves propagating through both holes. And so influenced that the particle does not go where the waves cancel out, but is attracted to where they cooperate. This idea seems to me so natural and simple, to resolve the wave-particle dilemma in such a clear and ordinary way, that it is a great mystery to me that it was so generally ignored. [4] - J. S. Bell

In a double slit experiment the particle travels a well defined path which takes it through one slit. The associated wave in the hidden medium passes through both. As the wave exits the slits it creates wave interference. As the particle exits a single slit the direction it travels is altered by the wave interference. This is the wave guiding the particle. Detecting the particle strongly exiting a single slit destroys the cohesion between the particle and its associated wave and the particle continues on the trajectory it was traveling.

Walking droplets

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Yves Couder and co-workers recently discovered a macroscopic pilot wave system in the form of walking droplets. This system exhibits behaviour of a pilot wave, heretofore considered to be reserved to microscopic phenomena.[5]

MIT researchers expand the range of quantum behaviors that can be replicated in fluidic systems, offering a new perspective on wave-particle duality.[6] "Whatever the case may be in quantum mechanics, the statistics are an incomplete description of our fluid system and emerge from an underlying pilot-wave dynamics.[7] This physical picture is remakably similar to an early model of quantum dynamics proposed by Louis de Broglie..."[8]

References

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  1. ^ Non-linear Wave Mechanics: A Causal Interpretation by Louis de Broglie (English translation) Amsterdam: Elsevier, 1960. http://bookza.org/g/Louis%20De%20Broglie (pdf)
  2. ^ de Broglie, Louis. "Interpretation of quantum mechanics by the double solution theory" (PDF). {{cite journal}}: Cite journal requires |journal= (help)
  3. ^ L. de Broglie, p. 22.
  4. ^ Bell, J. S. Speakable and unspeakable in quantum mechanics, Cambridge University Press, Cambridge (1987). Page 166.
  5. ^ Y. Couder, A. Boudaoud, S. Protière, Julien Moukhtar, E. Fort: Walking droplets: a form of wave-particle duality at macroscopic level? , doi:10.1051/epn/2010101, (PDF)
  6. ^ Hardesty, Larry. "When fluid dynamics mimic quantum mechanics". {{cite journal}}: Cite journal requires |journal= (help)
  7. ^ D. Harris, J. Bush. The pilot-wave dynamics of walking droplets - 2:10 mark.
  8. ^ D. Harris, J. Bush. The pilot-wave dynamics of walking droplets - 2:35 mark.
I have added some templates to make it stand out, and added a local reflist. Comments:
  • The 1st paragraph (How de Broglie's wave mechanics differs from Bohmian mechanics) is entirely unsourced. See wp:secondary sources. The de Broglie quote is huge and goes essentially nowhere.
  • The 2nd paragraph (de Broglie's description of quantum mechanics...) is a collection of two citations, flanked by unsourced conclusions. See wp:SYNTH
  • The 3rd paragraph (How de Broglie's wave mechanics likely applies to a double slit experiment) is unsourced. See wp:NOR
  • The 4th paragraph (Walking droplets - de Broglie's understanding of wave-particle duality in Macrophysics) is a collection of two citations. The title is wp:SYNTH.
Please do have a look at FyzixFighter's suggestions, and at the various policy pages pointed to. - DVdm (talk) 16:19, 15 April 2014 (UTC)Reply
  • The 1st paragraph is sourced by the de Broglie quote. The de Broglie quote explains specifically why the 1st paragraph is accurate. What am I supposed to do if you can't understand this? Ask for mediation? Mpc755 (talk) 16:48, 15 April 2014 (UTC)Reply
  • How are you able to read the de Broglie quotes and not understand it is the hidden medium which waves? It makes no sense to have to source what de Broglie clearly states. Mpc755 (talk) 16:57, 15 April 2014 (UTC)Reply
  • What do you mean by sourced? de Broglie clearly states a moving particle has an associated wave. What do you think occurs physically in nature in a double slit experiment when there is a physical particle and an associated physical wave? What do you think waves if not the hidden medium? Again, it just makes absolutely no sense to have to source what de Broglie clearly states. de Broglie is the source. Mpc755 (talk) 16:57, 15 April 2014 (UTC)Reply
  • Modified the title. Mpc755 (talk) 16:58, 15 April 2014 (UTC)Reply
Please do understand that you are requiring sources for what de Broglie himself clearly states. Your saying the de Broglie quote goes nowhere is completely missing the whole point. Mpc755 (talk) 16:57, 15 April 2014 (UTC)Reply
Is the issue that you just simply disagree with what de Broglie states and refuse to allow it to be posted on the Louis de Broglie wikipedia page? Is the issue your refusal to accept that there is a different understanding of a double slit experiment which is based upon physical reality? Mpc755 (talk) 16:58, 15 April 2014 (UTC)Reply
Please don't put comments between other comments. I have moved them down. See WP:INDENT.
See wp:secondary sources as opposed to wp:primary sources. Don't go about harvesting quotes and then drawing your conclusions from them. If you find a scholarly secondary source that says what you want to add to the article, and others think it's ok, then you are in business.
Don't think mediation at this point. Wait for other contributors' input and try to think wp:consensus. - DVdm (talk) 17:42, 15 April 2014 (UTC)Reply
Added secondary source Mpc755 (talk) 21:40, 15 April 2014 (UTC)Reply
Don't put a comment inside another comment. I have moved it down. See WP:INDENT. - DVdm (talk) 21:45, 15 April 2014 (UTC)Reply
Let me add another policy that would be relevant here: "Wikipedia is not an indiscriminate collection of information", more specifically summed up relative to this situation in WP:QUOTEFARM. As DVdm has pointed out, what you (Mpc755) want to add is almost entirely a stringing together of quotes from de Broglie with your own synthesis of what the string of quotes mean. Essentially you have picked quotes to advance a viewpoint of what de Broglie theorized. It may be that your summation is correct, but the point is that we cannot verify if it is since all you've provided are cherry-picked pieces of a primary source. Let me put it another way that may (or may not) be helpful, if another editor were to come and present their own selection of quotes from de Broglie and argue a completely different interpretation of his theory, how would we choose what to put in the article? Hence the necessity of reliable, secondary sources. Secondary sources would also give us a way to determine the due weight to give to this addition.
It looks like the Bell quote might be a good start, though IMO summarizing Bell's comments rather than quoting directly, and backing up with other good secondary sources, would be better. That said, there may be a few points the de Broglie quotes could be used for, for example a statement along the lines "de Broglie believed that his theory was distinct from Bohm's pilot wave theory" could possibly be supported by citing the primary source, but again a secondary source would be preferable since it could sum up why and give an assessment on if de Broglie understood Bohm's theory correctly. Overall, keeping the salvageable pieces, this reduces the first three paragraphs/subsections to mainly a paraphrase of Bell's quote. Finally, a lot of this is already in the subsection Louis de Broglie#Matter and wave–particle duality (which, incidentally, also needs better sourcing).
For the 4th, again youtube is generally not considered a reliable source. I find the "Whatever the case..." quote irrelevant in general to the topic/subtopic of the article which is de Broglie and his QM theory. At best we can say that recently a macroscopic analog of de Broglie's theory has been demonstrated which exhibits QM-like behavior. I would also point out that the Hardesty ref seems to connect the experiment to the de Broglie-Bohm theory (see the topic tags at the bottom). --FyzixFighter (talk) 04:40, 16 April 2014 (UTC)Reply

Note @Mpc755: I have reverted this edit. Please don't edit content that was already replied to—see WP:REDACT. Can you continue here at the bottom in a new {{cot}}-{{cob}} section? Thanks. - DVdm (talk) 18:38, 16 April 2014 (UTC)Reply

Sure.

Incorporating feedback from above. Mpc755 (talk) 19:47, 16 April 2014 (UTC) Reply

Extended content

de Broglie's wave mechanics and double solution theory

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How de Broglie's wave mechanics differs from Bohmian mechanics

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de Broglie believed that his theory was distinct from Bohm's pilot wave theory.

My first reaction on reading Bohm's work was to reiterate, in a communication to the Comptes rendus de l' Academie des Sciences, the objects, insurmountable in my opinion, that seemed to render impossible any attribution of physical reality to the Ψ wave, and consequently, to render impossible the adoption of the pilot-wave theory.[1]Louis de Broglie

de Broglie's description of wave mechanics by the double solution theory

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de Broglie's wave mechanics consists of a particle and an associated wave.

When in 1923–1924 I had my first ideas about Wave Mechanics I was looking for a truly concrete physical image, valid for all particles, of the wave and particle coexistence discovered by Albert Einstein in his "Theory of light quanta". I had no doubt whatsoever about the physical reality of waves and particles. ... For me, the particle, precisely located in space at every instant, forms on the v wave a small region of high energy concentration, which may be likened in a first approximation, to a moving singularity. ... Any particle, even isolated, has to be imagined as in continuous 'energetic contact' with a hidden medium[2]Louis de Broglie

de Broglie's wave mechanics explanation for the behaviors in a double slit experiment

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John Bell describes what occurs in a double slit experiment according to de Broglie's wave mechanics as a 'particle' and 'wave' where the particle passes through just one of the two holes and the waves propagating through both.[3] In a book by J.S. Redinha describes the particle as a 'singularity' which passes through one slit or the other, and the "pilot wave" through both slits.[4]

The following is a more up-to-date description of the de Broglie wave mechanics explanation of the double slit experiment.

In a double slit experiment the particle travels a well defined path which takes it through one slit. The associated wave in the hidden medium passes through both. As the wave exits the slits it creates wave interference. As the particle exits a single slit the direction it travels is altered by the wave interference. This is the wave guiding the particle. Strongly detecting the particle exiting a single slit destroys the cohesion between the particle and its associated wave and the particle continues on the trajectory it was traveling.

Walking droplets

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Yves Couder and co-workers recently discovered a macroscopic pilot wave system in the form of walking droplets. This system exhibits behaviour of a pilot wave, heretofore considered to be reserved to microscopic phenomena.[5]

MIT researchers expand the range of quantum behaviors that can be replicated in fluidic systems, offering a new perspective on wave-particle duality.[6] This physical picture is remakably similar to an early model of quantum dynamics proposed by Louis de Broglie..."[7]

References

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  1. ^ Une tentative d'interprétation causale et non linéaire de la mécanique ondulatoire: la théorie de la double solution. Paris: Gauthier-Villars, 1956." Non-linear Wave Mechanics: A Causal Interpretation by Louis de Broglie (English translation) Amsterdam: Elsevier, 1960. Page 92 http://bookza.org/g/Louis%20De%20Broglie (pdf)
  2. ^ de Broglie, Louis. "Interpretation of quantum mechanics by the double solution theory" (PDF). {{cite journal}}: Cite journal requires |journal= (help)
  3. ^ Bell, J. S. Speakable and unspeakable in quantum mechanics, Cambridge University Press, Cambridge (1987). Page 166.
  4. ^ Quantal Aspects in Chemistry and Physics. Coimbra University Press, Portugal. pp. 69–70. {{cite book}}: Unknown parameter |editors= ignored (|editor= suggested) (help)
  5. ^ Y. Couder, A. Boudaoud, S. Protière, Julien Moukhtar, E. Fort: Walking droplets: a form of wave-particle duality at macroscopic level? , doi:10.1051/epn/2010101, (PDF)
  6. ^ Hardesty, Larry. "When fluid dynamics mimic quantum mechanics". {{cite journal}}: Cite journal requires |journal= (help)
  7. ^ D. Harris, J. Bush. The pilot-wave dynamics of walking droplets - 2:35 mark.
Took out "Whatever the case..." Mpc755 (talk) 22:26, 16 April 2014 (UTC)Reply
Added two secondary sources explaining what occurs in a double slit experiment according to de Broglie's wave mechanics and double solution theory Mpc755 (talk) 00:53, 17 April 2014 (UTC)Reply
Removed "Not done yet..." from above this proposed version. I would like to add the above to the de Broglie widipedia page Mpc755 (talk) 11:48, 17 April 2014 (UTC)Reply
Already your very first sentence ("de Broglie believed that his theory was distinct from Bohm's pilot wave theory.") is unsourced. I haven't looked at the remainder. Please have a careful read of FyzixFighter's comments—and at wp:NOR and wp:SYNTH. - DVdm (talk) 12:28, 17 April 2014 (UTC)Reply
Why don't you have a careful read of what FyzixFighter said. Where do you think I got that quote from? FyzixFighter said, "That said, there may be a few points the de Broglie quotes could be used for, for example a statement along the lines "de Broglie believed that his theory was distinct from Bohm's pilot wave theory" could possibly be supported by citing the primary source" Mpc755 (talk) 12:45, 17 April 2014 (UTC)Reply
Oops, bad copy/paste job, my apologies. That should have been:
Already your very first paragraph ("de Broglie-Bohm theory should be referred to as Bohmian mechanics as de Broglie disagreed with Bohm in terms of what physically waves.") is unsourced. Please have a careful read of FyzixFighter's comments—and at wp:NOR and wp:SYNTH - DVdm (talk) 12:50, 17 April 2014 (UTC)Reply
I DID have a careful read of FyzixFighter comments. Where do you think the ("de Broglie-Bohm theory should be referred to as Bohmian mechanics as de Broglie disagreed with Bohm in terms of what physically waves.") quote is from? Do you understand what "could possibly be supported by citing the primary source" means? Do you not understand that a paragraph after a sentence can be the source supporting the statement? Are you not able to understand that's why it's indented? How do you think you are adding any value if you read a single sentence and then stop from reading further to determine the context of the statement? Mpc755 (talk) 12:53, 17 April 2014 (UTC)Reply
If you refer to my comments as "bullshit", then I'm afraid I'm not inclined to help you. Parhaps someone else is. - DVdm (talk) 13:01, 17 April 2014 (UTC)Reply
What makes you think you're helping if you read a single sentence and then comment on it as not being sourced when the very next paragraph is the supporting source? Mpc755 (talk) 13:09, 17 April 2014 (UTC)Reply
Since we are discussing my suggestion, let me clarify. This statement, "de Broglie believed that his theory was distinct from Bohm's pilot wave theory.", would be fine IMO based on the primary source; however, the definitive statement, "de Broglie-Bohm theory should be referred to as Bohmian mechanics as de Broglie disagreed with Bohm in terms of what physically waves.", needs an authoritative and reliable secondary source. The statement is an original extrapolation from de Broglie's opinion of Bohm's theory; we need a reliable source that we can point to for this extra opinion on proper nomenclature. The whole thing wall of text still suffers tremendously according to WP:QUOTEFARM and WP:UNDUE (the latter could be satisfied by good secondary sources that place the theory within the greater context of QM history). The only possible way I see any of this material, with the current references, making into the article is as maybe ~3-4 sentences: (1 - maybe two sentences here) de Broglie's theory summed up citing Bell & Redinha, (2) de Broglie saw it as distinct from Bohm's later theory citing de Broglie, (3) a macroscopic pilot-wave system that exhibits behaviors similar quantum mechanical systems has been demonstrated and researchers have drawn parallels between de Broglie's theory and this system. That's a very rough suggested wording, and it still doesn't answer the concerns of due weight. de Broglie's theory is a "fringe" (ie, not mainstream) interpretation/view of QM and so WP:FRINGE applies, particularly:
"For a fringe view to be discussed in an article about a mainstream idea, reliable sources must discuss the relationship of the two as a serious matter."
(here de Broglie's important theories being the mainstream idea) and
"A conjecture that has not received critical review from the scientific community or that has been rejected may be included in an article about a scientific subject only if other high-quality reliable sources discuss it as an alternative position."
I certainly don't think we've yet seen sufficient secondary sources to warrant the large amount of text you're proposing, and I'm somewhat on the fence if we have for even the few sentence I've suggested here. --FyzixFighter (talk) 01:41, 18 April 2014 (UTC)Reply
I trimmed it down. What I have written is the core of what de Broglie worked on and believed in. I think it has a place on the Louis de Broglie Wikipedia page. Mpc755 (talk) 01:52, 18 April 2014 (UTC)Reply

Your trim is still just straining at gnats while missing the bigger issues and concerns. I hate sounding like a broken record, but I still have significant concerns with respect to WP:QUOTEFARM, WP:UNDUE, and WP:RS (especially in the case of the youtube ref). I don't see myself agreeing with any proposed addition that isn't three or four sentences long and probably as part of the pre-existing Louis de Broglie#Matter and wave–particle duality subsection, unless we have more evidence of the material's importance, historically or scientifically, and prevalence in reliable secondary sources. When either of those conditions are met, then I'll try to give additional feedback. But until then, I'll consider my piece said and patiently observe what happens next. --FyzixFighter (talk) 03:36, 18 April 2014 (UTC)Reply

Adding wave mechanics and double solution theory to existing Louis de Broglie#Matter and wave–particle duality. further reduction of quotes.

Proposed and rejected

Matter and wave–particle duality

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"The fundamental idea of [my 1924 thesis] was the following: The fact that, following Einstein's introduction of photons in light waves, one knew that light contains particles which are concentrations of energy incorporated into the wave, suggests that all particles, like the electron, must be transported by a wave into which it is incorporated... My essential idea was to extend to all particles the coexistence of waves and particles discovered by Einstein in 1905 in the case of light and photons." "With every particle of matter with mass m and velocity v a real wave must be 'associated'", related to the momentum by the equation:

 

where   is the wavelength,   is the Planck constant,   is the momentum,   is the rest mass,   is the velocity and   is the speed of light in a vacuum."

This theory set the basis of wave mechanics. It was supported by Einstein, confirmed by the electron diffraction experiments of Davisson and Germer, and generalized by the work of Schrödinger.

However, this generalization was statistical and was not approved of by de Broglie, who said "that the particle must be the seat of an internal periodic movement and that it must move in a wave in order to remain in phase with it was ignored by the actual physicists [who are] wrong to consider a wave propagation without localization of the particle, which was quite contrary to my original ideas."

From a philosophical viewpoint, this theory of matter-waves has contributed greatly to the ruin of the atomism of the past. Originally, de Broglie thought that real wave (i.e., having a direct physical interpretation) was associated with particles. In fact, the wave aspect of matter was formalized by a wavefunction defined by the Schrödinger equation, which is a pure mathematical entity having a probabilistic interpretation, without the support of real physical elements. This wavefunction gives an appearance of wave behavior to matter, without making real physical waves appear. However, until the end of his life de Broglie returned to a direct and real physical interpretation of matter-waves, following the work of David Bohm. The de Broglie–Bohm theory is today the only interpretation giving real status to matter-waves and representing the predictions of quantum theory.

de Broglie believed that his theory was distinct from Bohm's pilot wave theory

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My first reaction on reading Bohm's work was to reiterate, in a communication to the Comptes rendus de l' Academie des Sciences, the objects, insurmountable in my opinion, that seemed to render impossible any attribution of physical reality to the Ψ wave, and consequently, to render impossible the adoption of the pilot-wave theory.[1]Louis de Broglie

de Broglie's wave mechanics description of wave-particle duality

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When in 1923–1924 I had my first ideas about Wave Mechanics I was looking for a truly concrete physical image, valid for all particles, of the wave and particle coexistence discovered by Albert Einstein in his "Theory of light quanta". I had no doubt whatsoever about the physical reality of waves and particles. ... For me, the particle, precisely located in space at every instant, forms on the v wave a small region of high energy concentration, which may be likened in a first approximation, to a moving singularity. ... Any particle, even isolated, has to be imagined as in continuous 'energetic contact' with a hidden medium[2]Louis de Broglie

de Broglie's wave mechanics explanation for the behaviors in a double slit experiment

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John Bell describes what occurs in a double slit experiment according to de Broglie's wave mechanics as a 'particle' and 'wave' where the particle passes through just one of the two holes and the waves propagating through both.[3] In a book by J.S. Redinha the particle is described as a 'singularity' which passes through one slit or the other, and the "pilot wave" through both slits.[4]

In de Broglie wave mechanics the particle travels a well defined path which takes it through one slit. The associated wave in the hidden medium passes through both. As the wave exits the slits it creates wave interference. As the particle exits a single slit the direction it travels is altered by the wave interference. This is the wave guiding the particle. Strongly detecting the particle exiting a single slit destroys the cohesion between the particle and its associated wave and the particle continues on the trajectory it was traveling.

Walking droplets

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Yves Couder and co-workers recently discovered a macroscopic pilot wave system in the form of walking droplets. This system exhibits behaviour of a pilot wave, heretofore considered to be reserved to microscopic phenomena.[5]

MIT researchers expand the range of quantum behaviors that can be replicated in fluidic systems, offering a new perspective on wave-particle duality.[6] This physical picture is remakably similar to an early model of quantum dynamics proposed by Louis de Broglie..."[7]

References

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  1. ^ Une tentative d'interprétation causale et non linéaire de la mécanique ondulatoire: la théorie de la double solution. Paris: Gauthier-Villars, 1956." Non-linear Wave Mechanics: A Causal Interpretation by Louis de Broglie (English translation) Amsterdam: Elsevier, 1960. Page 92 http://bookza.org/g/Louis%20De%20Broglie (pdf)
  2. ^ de Broglie, Louis. "Interpretation of quantum mechanics by the double solution theory" (PDF). {{cite journal}}: Cite journal requires |journal= (help)
  3. ^ Bell, J. S. Speakable and unspeakable in quantum mechanics, Cambridge University Press, Cambridge (1987). Page 166.
  4. ^ Quantal Aspects in Chemistry and Physics. Coimbra University Press, Portugal. pp. 69–70. {{cite book}}: Unknown parameter |editors= ignored (|editor= suggested) (help)
  5. ^ Y. Couder, A. Boudaoud, S. Protière, Julien Moukhtar, E. Fort: Walking droplets: a form of wave-particle duality at macroscopic level? , doi:10.1051/epn/2010101, (PDF)
  6. ^ Hardesty, Larry. "When fluid dynamics mimic quantum mechanics". {{cite journal}}: Cite journal requires |journal= (help)
  7. ^ D. Harris, J. Bush. The pilot-wave dynamics of walking droplets - 2:35 mark.

Lack of conversation does not mean consensus is in your favor, especially when you have done next to nothing to address my or DVdm's concerns. I'm tired of sounding like a broken record, so "see above". --FyzixFighter (talk) 02:19, 22 April 2014 (UTC)Reply

I do not have time to get into this fight, but just because you have totally overwhelmed us with text so we have not responded, does not mean that there is consensus to add all this material. Expect to see your addition reverted. Just give us a couple of sentenes well supported by a good secondary source, and maybe that can be slowly expanded a bit later. --Bduke (Discussion) 02:48, 22 April 2014 (UTC)Reply

Note - the repeated addition of the above content resulted in a 1 month block for user Mpc755. Content collapsed. - DVdm (talk) 14:48, 22 April 2014 (UTC)Reply

WTF is "ogg"?

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The pronunciation file won't play on any of the several media players I've tried it on.

How about replacing it with a more universal standard format file, like .WAV or .MP3? — Preceding unsigned comment added by 74.95.43.249 (talk) 18:35, 20 September 2017 (UTC)Reply

It's pretty standard here—see article Ogg, and check the sound clips in article Frank Zappa  . When downloaded as a local file, it plays with VLC media player, foobar2000 and BS.player Free. It directly plays in my browser version of Firefox. - DVdm (talk) 19:30, 20 September 2017 (UTC)Reply
Absolutely with the IP editor. Can't play OGG, can't be bothered to pursue enabling it. It got chosen back at the dawn of time, fine. Now it's long past time to replace it with something more accessible. Awien (talk) 17:31, 15 December 2018 (UTC)Reply

Supposed Atheism

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I removed claims of his atheism, as the supporting links did not show atheism specifically. One states he had "ceased the religious practices of his youth." This doesn't necessarily mean he was an atheist. The other source is from a "list of the nonreligous, the agnostics, and the atheists," which doesn't add specificity and is probably based on the former anecdote.

In terms of evidence for non-atheism, he came from a family who gave the Church many ecclesiastics; his funeral was held at the Church of Saint-Pierre-de-Neuilly; the book Les Professeurs de la faculté des sciences de Paris, 1901-1939 states he was Catholic: https://www.persee.fr/doc/inrp_0298-5632_1989_ant_25_1_8664; and his brother, Maurice, was a member of L’Union Catholique des Scientifiques Français.Akasseb (talk) 23:26, 30 March 2020 (UTC)Reply

Matter and wave–particle duality vs Matter wave page.

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Two parts of two pages discuss de Broglie's most famous and impactful contribution: Matter waves and their wavelength.

1) Here on the page devoted to his life, we have "Matter and wave–particle duality". This section is at least a printed page in length and yet it starts by pointing to a subsection of Matter Wave. IMO this section contains unreferenced material of philosophical character, not suited to de Broglie's history nor physics.

2) On Matter Wave we have a long section on history focused on de Broglie and his impact.

We need Matter Wave to expand to include many new results in contemporary physics and to include historical material for Matter waves as a subject rather than de Broglie alone.

My proposal it a new page "De Broglie hypothesis" combining the content for the two sources above. In those two places shorter sections would lead readers to the more in depth content. This new page would be focused on the most famous work of de Broglie and it's impact.

Johnjbarton (talk) 00:32, 10 May 2023 (UTC)Reply

Reverted move

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The Louis de Broglie page was move to a page "Louis de Broglie, 7th Duke of Broglie" without discussion.

The 7th dukeness of Louis de Broglie is a small footnote on this Nobel prize winner's legacy and does not belong in the title of his Bio.

This very topic was previously discussed Talk:Louis_de_Broglie#Requested_move.

I reverted the move. Johnjbarton (talk) 14:53, 16 August 2023 (UTC)Reply