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Interfering - Visualizing Science
Seeing Science in Everyday Life

Date: Friday, January 5th, 2007, at 07:20
Subject: Interfering
Security: Public
Location:New York, New York
Music:The Smiths
Tags:compression artifact, interferometry, physics, quantum mechanics, video

I just finished reading Robert P. Crease’s The Prism and the Pendulum: The Ten Most Beautiful Experiments in Science. The image above comes from the experiment Crease describes in his chapter “The Quantum Interference of Single Electrons.” A related editorial from Physics World, the same publication for which Crease wrote his original articles about “beautiful experiments,” goes into greater detail about the double-slit experiment, and the Wikipedia article on the same topic does a better job explaining than I care to attempt.

Indeed, the story behind the images above (easily read as a sequential series by people familiar with comics) is long and complicated. It has to do with the so-called “wave-particle duality” of electrons, which basically means that, under certain circumstances, electrons’ behavior is described by the mathematics of waves, while under other circumstances, we can think of them as particles. (They’re neither: “wave” and ”particle” are simply two mental images that humans rely on to visualize such behaviors.)

At any rate, the sequential images reveal the build up, over time, of an interference pattern between individual electrons passing through a double slit of sorts. Our intuition of electrons as particles runs right up against their behavior as waves in this case, because the individual electrons that form the images above slowly build up into an interference pattern, the likes of which we expect from waves.

In case all this gives you a slight headache (as well it might), you can check out a couple of films that describe the phenomenon quite beautifully…

Crease references a 14-minute movie from 1974, available from the Italian Institute for Microelectronics and Microsystems, which tells the story carefully, beginning with ripples in a fountain and proceeding through light interference to electron interference. A word of warning, however: the movie files clock in around 150MB. (Nosing around the parent directory yields links to better-quality versions of the film, BTW, although the files sizes are even greater.) For those with a bit of physics background, the film succeeds in providing a good sense of what’s going on (with extensive use of animated diagrams), although the visualization of the actual data leaves a bit to be desired.

Fear not, however! A web page from the research and development group at Hitachi also describes the double-slit experiment, and it links to a page with movies, including a 10.4MB MPEG demonstrating the accumulation of electrons much more clearly than the 1974 film. But hey, they had 15 years to work out the kinks.

So where am I going with all this? Well, I found my response to the various media rather interesting. I majored in physics (well, astronomy, technically, but our slogan was, “more physics than physics majors”), so I knew the story the images were supposed to be telling. The sequential series above is certainly more than enough for me to get the gist. But actually watching the videos introduced some challenges: in particular, the limitation of the imaging capabilities in 1974 makes seeing the phenomenon tricky, but combined with the compression artifacts (e.g., the blockiness caused by the MPEG-4 compression), it starts to take some imagination to reconstruct the experiment in the mind’s eye. Thus, the images “say” only what we’re prepared to “hear.” The story I extract is the story I already know.

The Hitachi video pretty well circumvents the data problem with the 1974 film, however, so taken together, the narrative of the folder film plus the data representation of the latter tell a decent story. I think. But I’ve heard this one before.
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