Talk:Free-electron laser

Latest comment: 6 months ago by 91.64.185.27 in topic SPring-8 Compact SASE Source --> SACLA at Spring8

Images

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File:FEL1.jpg
FEL1.jpg
File:FEL2.jpg
FEL2.jpg

I've replaced two images with the image from the german article. Feel free to re-add the others if you think otherwise. IMHO in FEL1.jpg the electron beam doesn't wiggle at all and in FEL2.jpg in the wrong plane. --Pjacobi 12:25, 2005 Mar 6 (UTC)

Yup, better picture. It's just kinda too small though. Any chance you've got something about 200-400px big? Cal 1234 15:52, Mar 6, 2005 (UTC)

The name of an X-ray device

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Since a "microwave amplification by stimulated emission of radiation" device is called a maser and a "light amplification by stimulated emission of radiation" device is called laser, an "X-ray amplification by stimulated emission of radiation" device should most properly be called either a xaser, or since masers were first, an X-ray maser? Besides xaser being hard to pronounce, laser is a much more common term than maser ever was, so I imagine that it will stay "X-ray laser". --David R. Ingham 23:28, 18 July 2005 (UTC)Reply

An FEL does not amplify the x-rays (or whatever kind of radiation) by stimulated emission. See self-amplified spontaneous emission (SASE). I believe FEL has the word laser in it because free electrons create laser alike radiation, i.e. monochromatic, directional (thereby intense) and coherent. FEL can produce light in various wavelength regimes. Only x-ray free electron laser are commonly abbreviated as XFEL. I've never heard 'xaser' and I think 'x-ray laser' is misleading because it is not stimulated emission that amplifies the radiation. I propose to use FEL or XFEL instead! --Maderthaner (talk) 02:17, 13 November 2014 (UTC)Reply

Very Dense Verbage

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I have a doctorate in biophysics, yet I could not understand discussion of the XFEL. Sorry to whoever worte it. :) Can someone who understands the basic underlying theory rewrite this section in the style of the "News/Focus" section of the journal Science. An example: the current versions says "down to a wavelength of 1.5 Ångstroms." How good is that? How "hard" are x-rays of that wavelength? The journal Science says, "These 'hard' x-ray wavelengths—down to 0.1 nanometers—promise to reveal the structure of proteins that have eluded other techniques and nanometer-scale features inmeterials.",[1] This is an excellent example of the style I would like to see here. Can someone who understands the technology please describe how XFEL are built and generate x-rays? Nwbeeson 14:53, 20 November 2006 (UTC)Reply

References

  1. ^ Science, vol 314 (5800), p. 751, 2006

Last paragraph of FEL creation

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It seems to me that the word "so" is used too many times in this paragraph, it doesn't read well.
"Depending on the position along the undulator the oscillation of an electrons is in phase or not in phase with this radiation. So the light either tries to accelerate or decelerate this electrons. So it gains or loses kinetic energy, so it moves faster or slower along the undulator. So the electrons form bunches. Now they are synchronized and will in turn emit synchronized (that is coherent) radiation."

I would recommend replacing it with something like:
"Depending on the position along the undulator the oscillation of an electrons is in phase or not in phase with this radiation. The light either tries to accelerate or decelerate this electrons. It thereby gains or loses kinetic energy, so it moves faster or slower along the undulator. This causes the electrons to form bunches. Now they are synchronized, and will in turn emit synchronized (that is coherent) radiation."
--Patrick--70.58.248.157 23:39, 8 December 2006 (UTC)Reply


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freakin ucsb's free electron laser http://sbfel3.ucsb.edu/ —Preceding unsigned comment added by 68.6.66.57 (talk) 05:03, 18 September 2007 (UTC)Reply

Northrop Grumman hits Weapons grade FEL

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http://blog.wired.com/defense/2008/09/weapons-grade-l.html —Preceding unsigned comment added by 137.244.215.19 (talk) 13:54, 25 March 2009 (UTC)Reply

Nothing about FEL on that page! -- Tomdo08 (talk) 20:58, 23 September 2010 (UTC)Reply

tuning / noisy startup problem

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can you "tune" SASE FEL by slowly changing the energy of the electron beam? Or would the beam (its coherency) have to break down inbetween? because the beam is faster than the electrons, and would interact with electrons that still have the old energy. would the beam just get a bit "dimmer" while tuning? --Maxus96 (talk) 02:06, 27 March 2010 (UTC)Reply

Vs. Undulator?

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The description of the workings is rather terse. It's not clear to me how the FEL is different from other undulators. JKeck (talk) 19:39, 5 May 2010 (UTC)Reply

+ I too want an explanation to what makes it more than a synchrotron, that also (may?) use undulators & wigglers. I know that Max IV does not consider themselves "FEL-capable" (yet), but I don't understand the difference. — Preceding unsigned comment added by 83.233.137.72 (talk) 01:04, 27 December 2023 (UTC)Reply

Micrometres? I doubt it.

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From the article:

Research by Dr. Glenn Edwards and colleagues at Vanderbilt University's FEL Center in 1994 found that soft tissues like skin, cornea, and brain tissue could be cut, or ablated, using FEL wavelengths around 6.45 micrometres with minimal collateral damage to adjacent tissue.

Considering 6.45 micrometres would be 6450 nanometres, in the far infrared, it would less cleanly ablate and more horrifically burn.  It would be super if I could actually investigate the reference, but like most ivory tower sources, I cannot.  Whatever.  Bad science is bad science, and I will boldly change it to nanometres, since that would put the value directly in the soft (non-penetrating) X-ray range that I am sure is being discussed.

For the record, it seems that the text was originally added as "microns", then someone (reasonably) changed it to micrometres.

-- 99.240.223.41 (talk) 23:53, 31 August 2010 (UTC)Reply

It turns out I was wrong.
http://www.vanderbilt.edu/News/register/Jan10_00/story5.html
I did not originally search very deeply, because, usually, the best case scenario is "purchase a copy of this article for $30", and the worst case scenario is nothing at all. This time, however, someone wrote up a story accessible to the unwashed masses. The linked article clearly states that the laser is infrared, although I admit that I must not understand the physics behind its effect on tissue.
I will change the text back to micrometres. I will also add the linked article as another source, so I can clarify that the laser in question is indeed infrared.
I will also cite to the best of my ability the statement about the "Raman shifted system pumped by an Alexandrite laser", and request citation on the more general statement about "several efforts to build small, clinical lasers tunable in the 6 to 7 micrometre range".
-- 99.240.223.41 (talk) 17:13, 6 November 2010 (UTC)Reply
Thank you for your efforts. Yes you have to bear in mind this is laser technology, so it is the highly collimated and coherent beam which enables the cutting action. The infrared wavelength is necessary because it more easily absorbed than other wavelengths. Typically, the smaller the wavelength the more transparent matter is. If you have problems accessing full text articles, there is a wikiproject WP:LIBRARY in which participating users can provide other users with access to specific articles / textbook etc. Polyamorph (talk) 19:54, 6 November 2010 (UTC)Reply

Explanation wrong

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The description of the FEL gets nearly everything wrong. I will mend this in the near future. -- Tomdo08 (talk) 21:03, 23 September 2010 (UTC)Reply

The description "Beam creation" is incomplete and requires verification an I agree the entire article needs work, but I wouldn't go so far as to say it is wrong. Insertion devices are indeed used in free electron laser devices. Polyamorph (talk) 20:12, 6 November 2010 (UTC)Reply

Analog of Population Inversion?

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I'm curious what the analog to population inversion is in a FEL. 174.108.116.161 (talk) 05:28, 11 November 2010 (UTC)Reply

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CF: http://www.foxnews.com/scitech/2011/01/20/raygun-breakthrough-revolutionize-naval-power/?test=faces
"Military Tech: Breakthrough Laser Could Revolutionize Navy's Weaponry" Published January 20, 2011
Hope this helps, Charles Edwin Shipp (talk) 00:30, 21 January 2011 (UTC)Reply

Sources

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Is there a reason that the article does not cite the relevant papers for things such as the history behind FELs for the introduction, but rather lists them as further reading? --Dlfreese (talk) 07:15, 31 May 2012 (UTC)Reply

Some unclarity

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The article does not make it clear how a Free-electron laser differs from a synchrotron light source. Both use insertion devices (undulator or wiggler, and on that subject it is not made clear what the difference between those are either) but clearly there must be a difference, right? From what I understand, an FEL uses some sort of modulation to "bunch" electrons in packets such that the distance between each bunch causes all the emitted synchrotron radiation photons to be in phase. Could someone who knows more on this subject clear this up? In any case, the difference should be made more clear, as the article is incredibly vague in its current state.

The difference between FEL and SLS is that a FEL has a resonant cavity; the light is reflected between mirrors and is used to stimulate emission in the next bunch of electrons that passes through the undulator, leading to light amplification. Synchrotron radiation [light from SLS] arises from a single bunch of electrons passing once through an undulator. (For XFELs this is not the case, but that is already explained in that section.) VictorClaessen (talk) 15:00, 16 August 2017 (UTC)Reply
Well, X-ray FELs don't have mirrors, how could they? But, in general, the main difference between a synchrotron and an FEL is that in the latter, the electrons are accelerated in a linear accelerator (LINAC). Shouldn't that be mentioned in the article?
--Felix Tritschler (talk) 10:52, 3 July 2019 (UTC)Reply

SASE - Self amplified SPONTANEOUS emission the article is wrong here

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Please someone correct that mistake, there is no stimulation, amplification essentially starts from noise! I tried to correct this already but my changes have been undone! English Wikipedia is the first search hit and wrong, great!

Reference:

E. Saldin, E. Schneidmiller, and M. Yurkov, "The Physics of Free Electron Lasers" (Springer, 2000) (page 10 e.g.)

http://flash.desy.de/ (english, bottom paragraph) — Preceding unsigned comment added by 130.149.239.38 (talk) 11:33, 29 May 2013 (UTC)Reply

I did change this. I have to say, this section of the article could be improved. --Maderthaner (talk) 02:23, 13 November 2014 (UTC)Reply

Wrapping up the beam creation, large facility, mirror and seeded section

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I propose to restructure the beam creation part of the article. I have the feeling that the first couple sections are all talking about this but not really to the point. I noticed often that the SASE process was explained in a dubious way and also seeding/self-seeding could be brought under this section. There is also multiple ways of creation a FEL seeded beam, e.g. self-seeding.--Maderthaner (talk) 02:33, 13 November 2014 (UTC)Reply

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FEL prize?

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a list of FEL prize awards doesn't seem appropriate for this page. perhaps it should get its own page, or be deleted?— Preceding unsigned comment added by Pjgrandinetti (talkcontribs) 22:39, March 29, 2021 (UTC)

I deleted it. It was unreferenced and probably not notable enough for its own page. Pelirojopajaro (talk) 07:08, 30 March 2021 (UTC)Reply

SPring-8 Compact SASE Source --> SACLA at Spring8

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The examples of FELs lists two devices in Japan. As far as i can gather, the SPring-8 SASE source was a project that ended up becoming SACLA, at the Spring-8 campus at RIKEN Harima Institute. We should consider removing SPring-8 Compact SASE Source. 91.64.185.27 (talk) 06:29, 2 May 2024 (UTC)Reply