The original film was made in the late 50's and was discovered at a local car boot sale in the Crawley area many years ago. MEL was manufacturing Linear accelerators at MItcham, London and moved to Crawley when the Industrial estate was built. MEL was eventually purchased by Elekta. Elekta are still manufacturing medical linear accelerators on the same site. We used this video for many years in the training department to describe the physics behind the accelerator. The basics have not changed in over 60 years.
@itWouldBeWise
10 жыл бұрын
Thanks for posting! I'm a Medical Physicist and I found this to be very interesting to see, and by far the best explanation for how an electron is accelerated in a traveling wave linear accelerator that I've come across.
@ronniepirtlejr2606
8 ай бұрын
Look at the size of that x-ray machine in the hospital!
@nermienkhalifa5997
7 жыл бұрын
Great film thanks !!!
@mrfedeteran
10 жыл бұрын
Great technical explanation!
@stefanopeca6300
10 жыл бұрын
Soooo much better than chapter 4 of KHAAAAAN! (I really wish we still used a periscope)
@nerbo6731
7 жыл бұрын
I was just thinking the same thing
@stefanopeca6300
6 жыл бұрын
While I love this video, need to point out an errata: at 6.46 the apertures of the iris plates should be drawn to be DEcreasing (not INcreasing) toward the target end. The decreasing radius makes the microwaves accelerate (although it's not that clear to me how that happens... input from other viewers?) Note - this video is about "travelling wave accelerators". These are still used today for some 6 MV-only medical linacs (e.g. Varian Unique and I think also the old CL600). In 1968 (after this video was made) Knapp et al invented the "standing wave" accelerator, which allow higher energies (15-18 MV) in a reasonable length of accelerator waveguide (about 1 m).
@LouisEmery
3 жыл бұрын
The smaller the iris the slower the rf wave. Slow rf waves needed at the beginning because the elections are slowest there. i was impressed when the animation got that detail right.
@jamaalpadmore3112
2 жыл бұрын
Found this video cause i was watching people beam electrons into acrylic. Then striking it creating awesome lighting trees
@KiranBV
12 жыл бұрын
which year was this made? :D i love it!
@Nunnman1
11 жыл бұрын
fantastic!! where did you get this? do you have any more like this.
@clayz1
10 жыл бұрын
If you like this, see also "From the Archives: Fabricating the Linear Accelerator"
@winfridahgesare1479
Жыл бұрын
As a radiation therapist it's informative
@Mp57navy
11 жыл бұрын
Hehe, the x-ray tube to check pipe welds for defaults in around 10 kilograms. Wonder how heavy this stuff was once upon a day.
@dtiydr
8 жыл бұрын
3:55 And now they are into Tera elektron range with the newly uppgraded hydron collider, thats a tad more then 15 Mega electron volts.
@baloobawhales
9 жыл бұрын
may be a resonation barrier between charge and waveform energy.. a charge would need to achieve a sine wave (thermodynamic dependance)..
@vassilkarayonchev1307
9 жыл бұрын
Go home man! Physics is not for you !
@Ding_You
Жыл бұрын
What are iris plates
@granddad2002
10 жыл бұрын
When science was outpacing science fiction. Nuclear physics applications to medicine aren't ever mention at anti-nuke rallies.
@anteconfig5391
5 жыл бұрын
Interesting. I came to this video because I was trying to learn more about how a waveguided particle accelerator would work. Now I'm wondering if NASA has thought about using something like this to accelerate ions in their ion thrusters.
@user46346bdtgry
3 жыл бұрын
they probably have. high power microwave sources developed for military radar is actually what allowed the invention of magnetrons/klystrons in the first place. without military radar medical linacs would probably be only available in high tech facilities like the heavy-ion therapies currently going on in heidleberg
@life_of_riley88
4 ай бұрын
@@user46346bdtgryThe Klystron is a product of SLAC national accelerator laboratory. It is still in use to some degree, but is mostly obsolete tech these days.
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