Of course, that's not how utilities like Google Maps figure out traffic flow maps or road closures. Instead, applications like that track the GPS signals of cell phones carried in the vehicles. Is there a current-mapping analogy here as well? Yes. There is some "signal" produced by the flow of current, if only you can have a sufficiently sensitive detector to find it. That is the magnetic field. Flowing current density \(\mathbf{J}\) produces a local magnetic field \(\mathbf{B}\), thanks to Ampere's law, \(\nabla \times \mathbf{B} = \mu_{0} \mathbf{J}\).
Scanning SQUID microscope image of x-current density
in a GaSb/InAs structure, showing that the current is
carried by the edges. Scale bar is 20 microns. Image
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Fortunately, there now exist several different technologies for performing very local mapping of magnetic fields, and therefore the underlying pattern of flowing current in some material or device. One older, established approach is scanning Hall microscopy, where a small piece of semiconductor is placed on a scanning tip, and the Hall effect in that semiconductor is used to sense local \(B\) field.
Scanning NV center microscopy to see magnetic fields,
Scale bars are 400 nm.
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A very recently developed method is to use the exquisite magnetic field sensitive optical properties of particular defects in diamond, NV centers. The second figure (from here) shows examples of the kinds of images that are possible with this approach, looking at the magnetic pattern of data on a hard drive, or magnetic flux trapped in a superconductor. While I have not seen this technique applied directly to current mapping at the nanoscale, it certainly has the needed magnetic field sensitivity. Bottom line: It is possible to "look" at the current distribution in small structures at very small scales by measuring magnetic fields.
2 comments:
Interesting new paper on arxiv using the NV magnetic imaging technique:
Nanoscale imaging of current density with a single-spin magnetometer
K. Chang, A. Eichler, C. L. Degen
https://arxiv.org/abs/1609.09644
Grumpy, thanks very much - that's just the paper I'd been looking for, and illustrates my last case perfectly.
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